Google
This is a digital copy of a book that was preserved for generations on library shelves before it was carefully scanned by Google as part of a project
to make the world's books discoverable online.
It has survived long enough for the copyright to expire and the book to enter the public domain. A public domain book is one that was never subject
to copyright or whose legal copyright term has expired. Whether a book is in the public domain may vary country to country. Public domain books
are our gateways to the past, representing a wealth of history, culture and knowledge that's often difficult to discover.
Marks, notations and other maiginalia present in the original volume will appear in this file - a reminder of this book's long journey from the
publisher to a library and finally to you.
Usage guidelines
Google is proud to partner with libraries to digitize public domain materials and make them widely accessible. Public domain books belong to the
public and we are merely their custodians. Nevertheless, this work is expensive, so in order to keep providing tliis resource, we liave taken steps to
prevent abuse by commercial parties, including placing technical restrictions on automated querying.
We also ask that you:
+ Make non-commercial use of the files We designed Google Book Search for use by individuals, and we request that you use these files for
personal, non-commercial purposes.
+ Refrain fivm automated querying Do not send automated queries of any sort to Google's system: If you are conducting research on machine
translation, optical character recognition or other areas where access to a large amount of text is helpful, please contact us. We encourage the
use of public domain materials for these purposes and may be able to help.
+ Maintain attributionTht GoogXt "watermark" you see on each file is essential for in forming people about this project and helping them find
additional materials through Google Book Search. Please do not remove it.
+ Keep it legal Whatever your use, remember that you are responsible for ensuring that what you are doing is legal. Do not assume that just
because we believe a book is in the public domain for users in the United States, that the work is also in the public domain for users in other
countries. Whether a book is still in copyright varies from country to country, and we can't offer guidance on whether any specific use of
any specific book is allowed. Please do not assume that a book's appearance in Google Book Search means it can be used in any manner
anywhere in the world. Copyright infringement liabili^ can be quite severe.
About Google Book Search
Google's mission is to organize the world's information and to make it universally accessible and useful. Google Book Search helps readers
discover the world's books while helping authors and publishers reach new audiences. You can search through the full text of this book on the web
at |http: //books .google .com/I
dbjGooglc
i
THELroRARY -
OF
THE UNIVERSITY
OF CALIFORNIA
GIFT OF
''r, ^n6 'Vs. E'lrl °ro"-n
_cbyGOOgIC
DioilizedbjGOOglC
DioilizedbjGOOglC
dbjGooglc
dbjGooglc
THE BOY MECHANIC
BOOK I
IN-IMad In U. I. J
Digitized byGOOgIC
How to Make a Qllder
(Besp»<el71) '
Digitized by VjOOQIC
The
Boy Mechanic
BOOK I'
700 THINGS FOR BOYS TO DO
HOW TO CONSTRUCT
WIEELESS OUTFITS, BOATS, CAMP EQUIPMENT, AERIAL
GLIDERS, KITES, SELF-PROPELLED VEHICLES
ENGINES, MOTORS, ELECTRICAL
APPARATUS, PAMERAS
HUNDREDS OF OTHER THINGS WHICH DELIGHT EVERY BOY
WITH 800 ILLUSTRATIONS
Dmmtamu, mt, ar H. H. WINDSOR
CHICAGO
POPULAR MECHANICS CO.
PUBLISHERS
izccbjGoogle
RTF:'
dbjGoOglc
Vd^''
A Model Steam Engine
The accompanying sketch illustrates containing them being soldered to the
two-cylinder single-acting, poppet- top plate.
live steam engine of home construc-
tion.
The entire engine, excepting the
flywheel, shaft, valve cams, pistons
and bracing rods connecting the upper
and lower plates of the frame proper,
is of brass, the other parts named be-
ing of cast iron and bar steel.
The cylinders, G, are of seamless
brass tubing, ly^ in, outside diameter;
the pistons, H, are ordinary 1-in. pipe
caps turned to a plug lit, and
ground into the cylinders with oil and
emery. This operation also Bnishes
the inside of the cylinders.
The upright rods binding the top
and bottom plates are of steel rod
about %-in. in diameter, threaded into
the top plate and passing through
holes in the bottom plate with hex-
agonal brass nuts beneath.
The valves, C, and their seats, ~
The steam chest. A, over the valve
mechanism is constructed of 1-in.
square brass tubing, one side being
bored with a countersink bit, are sawed out and the open ends tilted
plainly shown. The valves were made
by threading a copper washer, % in.
in diameter, and screwing it on the
end of the valve rod, then wiping on
roughly a tapered mass of solder and
grinding it into the seats B with em-
ery and oil.
The valve rods operate in guides,
D, made of */4-in. brass tubing, which
passes through the top plate and into
the heavy brass bar containing the
with pieces of Vj-in. sheet brass and
soldered in. The steam inlet is a
gasoline pipe connection such as used
on automobiles.
The valve-operating cams, F, are
made of the metal ends of an old type-
writer platen, one being finished to
shape and then firmly fastened face to
face to the other, and used as a pat-
tern in filing the other to shape. At-
tachment to the shaft, N, is by means
valve seats and steam passages at the of setscrews which pass through the
top, into which they are plug-fitted sleeves.
and soldered. The main bearings, M, on the sup-
The location and arrangement of ports, O, and the crank-end bearings
the valve seats and steam passages of the connecting rods, K, are split
ire shown in the sketch, the flat bar and held in position by machine
285
iooglc
screws with provision for taking them
up when worn.
The exhausting of spent steam is
accomplished by means of slots, I,
sawed into the fronts of the cylinders
at about Vs in. above the lowest posi-
tion of the piston's top at the end of
the stroke, at which position of the
piston the valve rod drops into the cut-
out portion of the cam and allows the
valve to seat.
AH the work on this engine, save
turning the pistons, which was done
in a machine shop for a stnall sum,
and making the fljnvheel, this being
taken from an old dismantled model,
was accomplished with a hacksaw,
bench drill, carborundum wheel, files,
taps and dies. The base, Q, is made
of a heavy piece of brass.
The action is smooth and the speed
high. Steam is supplied by a sheet-
brass boiler of about 3 pL capacity,
heated with a Bunsen burner. — Con-
tributed by Harry F. Lowe, Wash-
ington, D. C.
Maffc Spirit Hand
The magic hand made of wax is a connecting plug at the top. The
given to the audience for examination, plug can be taken out or put in as de-
also a board which is suspended by sired.
four pieces of common picture-frame The top of the board must be made
wire. The hand is placed upon the to open or slide off so that when the
board and answers, by rapping, any battery is exhausted a new one can be
question asked by members of the au- installed. Everything must be firmly
dience. The hand and the board may fixed to the board and the hollow space
be examined at any time and yet the filled in with wax, which will make
rapping can be continued, though sur- the board sound solid when tapped,
round^ by the audience. In presenting the trick, the per-
The Magic Wand, London, gives former gives the hand and board with
the secret of this spirit hand as fol- wires and switch for examination,
lows : The hand is prepared by con- keeping the plug concealed in his right
cealing in the wrist a few soft iron hand. When receiving the board
plates, the wrist being afterwards back, the plug is secretly pushed into
bound with black velvet as shown in the switch, which is held in the right
Fig. 1. The board is hollow, the top hand. The hand is then placed on the
being made of thin veneer (Fig. 2). board over the magnet. When the
A small magnet. A, is connected to a performer wishes the hand to move he
small flat pocket lamp battery, B. The pushes the plug in, which turns on the
board is suspended by four lengths of current and causes the magnet to at-
picture-frame wire one of which, E, is tract the iron in the wrist, and will,
Wait H«Dd OD Board
connected to the battery and another, therefore, make the hand rap. The
D, to the magnet. The other wires, F switch can be made similar to an or-
and G, are only holding wires. All dinary push button so the rapping
the wires are fastened to a small orna- may be easily controlled without de-
mental switch, H, which is fitted with tection by the audience.
joglc
During the winter months everyone
is thinking of skating, coasting or ski-
running and jumping. Those too
timid to run down a hill standing up-
right on skis must take their pleasure
in coasting or skating.
The ordinary ski can be made into
a coasting ski-toboggan by joining two
pairs together with bars without in-
jury to their use for running and jump-
ing. The ordinary factory-made skis
cost from $2,50 per pair up, but any
hoy can make an excellent pair for 50
cents.
In making a pair of skis, select two
strips of Norway pine free from knots,
1 in, thick, 4 in, wide and 7 or 8 ft.
long. Try to procure as fine and
straight a grain as possible. The
pieces are dressed thin at both ends
leaving about 1 ft. in the center the
full thickness of 1 in., and gradually
thinning to a scant y-i in, at the ends.
One end of each piece is tapered to a
point beginning 13 in. from the end.
A groove is cut on the under side,
about y^ in, wide and ^ in, deep, and
running almost the full length of the
ski. This will make it track straight
and tends to prevent side slipping.
The shape of each piece for a ski, as it
appears before bending, is shown in
Fig. 1.
The pointed end of each piece is
placed in boiling water for at least 1
hour, after which the pieces are ready
for bending. The bend is made on an
ordinary stepladder. The pointed ends
are stuck under the back of one step
and the other end securely tied to the
ladder, as shown in Fig. 2. They
should remain tied to the ladder 18
hours in a moderate temperature, after
which they will hold their shape
permanently,
The two straps, Fig. 3, are nailed on
a little forward of the center of gravity
so that when the foot is lifted, the front
A
-41-
^
Fig. 3— Fottniii^ th* BU*
of the ski will be raised. Tack on a
piece of sheepskin or deer hide where
the foot rests. Fig. 4,
The best finish for skis is boiled lin-
seed oil. After two or three applicO'
z:cbv^jOOglC
Pla.4— ThaTsc Btrim
tions the under side will take a polish
like glass from the contact with the
snow.
The ski-toboggan is made by placing
two pairs of skis together side by side
Flf. 3 - aU-TobocEMi
and fastening them with two bars
across the top. The bars are held with
V-shaped metal clips as shown in Fig,
5. — Contributed by Frank Scobie,
Sleepy Eye, Minn.
Homemade Life Preserver
Procure an inner tube of a bicycle
tire, the closed-end kind, and fold it in
four alternate sections, as shown in
Fig. 1. Cut or tear a piece of cloth
into strips about ^ in. wide, and knot
tfcem together. Fasten this long strip
of cloth to the folded tube and weave
At alternately in and out, having each
flated. The straps that hold the pre-
server to the body may be made of old
suspender straps. They are sewed to
the case at one end and fastened at the
other with clasps such as used on over-
all straps. The tube can be easily in-
flated by blowing into the valve, at the
same time holding the valve stem down
with the teeth. The finished preserver
is shown in Fig. Z.
How to Make Boomerangs
When the ice is too thin for skating
and the snow is not right for skis,
about the only thing to do is to stay
in the house. A boomerang club will
help to fill in between and also fur-
nishes good exercise for the muscles
of the arm. A boomerang can be made
run of the cloth about 4 in. apart, un-
til it is bound as shown in Fig. 1.
Make a case of canvas that will
snugly fit the folded tube when in-
of a piece of well seasoned hickory
plank. 7^e plank is well steamed in a
wash boiler or other large kettle and
then bent to a nice curve, as shown in
Fig. 1. It is held in this curve until
dry, with twp pieces nailed on the sides
as shown.
After the piece is thoroughly dried
out, remove the side pieces and cut it
into sections with a saw, as shown in
Fig. Z. The pieces are then dressed
round. A piece of plank 13 in. wide
and 2 ft. long will make six boom-
erangs.
To throw a boomerang, grasp it and
hold the same as a club, with the hol-
low side away from you. Practice
first at some object about 25 ft. distant,
and in a short time the thrower will be
able to hit the mark over 100 ft. away.
Any worker in wood can turn out a
great number of boomerangs cheaply.
— Contributed by J. E. Noble, Toronto,
Ontario.
d by Google
How to Make an Bskiino Snow House
By GEORGE E. WALSH
Playing in the snow can be raised
to a fine art if boys and girls will build
their creations with some attempt at
architectural skill and not content
themselves with mere rough work.
Working in snow and ice opens a wide
field for an expression of taste and
invention, but the construction of
houses and forts out of this plastic
material provides the greatest amount
of pleasure to the normally healthy boy
or girl.
The snow house of the Eskimo is
probably the unhealthiest of buildings
made by any sav-
age to live in, but
it makes an excel-
lent playhouse in
winter, and repre-
sents at the same
time a most ingen-
ious employment
of the arch sys-
tem in building.
The E s Ic i m o 3
build their snow
houses without the aid of any scaf-
folding or interior falsework, and while
there is a keystone at the top of the
dome, it is not essential to the support
of the walls. These are self-support-
ing from the time the first snow blocks
are put down until the last course is
laid.
The snow house is of the beehive
shape and the ground plan is that of a
circle. The circle is first laid out on
the ground and a space cleared for it.
Then a row of snow blocks is laid on
the ground and another course of
similar blocks placed on
top. The snow blocks
are not exactly square
in shape, but about 12 ~
in. long, 6 in. high and
4 or 5 in, thick. Larger
or smaller blocks can
be used, according to
size of the house and
thickoess of the walls.
First, the snow blocks must be
packed and pressed firmly into position
out of moist snow that will pack. A
very light, dry snow will not pack
easily, and it may be necessary to use
a little water. If the snow is of the
right consistency, there will be no
trouble in packing and working with
it. As most of the blocks are to be of
the same size throughout, it will pay
to make a mold for them by forming a
box of old boards nailed together,
minus the top, and with a movable
bottom, or rather no bottom at alt.
Place the four-
sided box on a flat
board and ram
snow in it, forcing
it down closely.
Then by lifting
the box up and
tapping the box
from above, the
block win drop
out. In this way
blocks of uniform
size are formed, which makes the
building simpler and easier.
While one boy makes the blocks an-
other can shave them off at the edges
and two others can build the house,
one inside of the circle and the other
outside. The Eskimos build their snow
houses in this way, and the man inside
stays there until he is completely
walled in. Then the door and a win-
dow are cut through the wall.
Each layer of snow blocks must
have a slight slant at the top toward
the center so that the walls will con-
izcdbyGOOglC
stantly curve inward. This slant at
the top is obtained better by slicing
off the lower surfaces of each block
before putting it in its course. The
top will then have a uniform inward
slant.
The first course of the snow house
should be thicker than the others, and
the thickness of the walls gradually
decreases toward the top. A wall,
however, made of 6-ia. blocks through-
out will hold up a snow house perfectly,
if its top is no more than 6 or 7 ft.
above the ground. If a higher house
is needed the walls should be thicker
at the base and well up toward the
middle.
The builder has no mortar for bind-
ing the blocks together, and therefore
he must make his joints smooth and
even and force in loose snow to fill
up the crevices. A little experience
will enable one to do this work well,
and the construction of the house will
proceed rapidly. The Eskimos build
additions to their houses by adding
various dome-shaped structures to one
side, and the young architect can imi-
tate them. Such dome-shaped struc-
tures are shown in one of the illus-
trations.
A fact not well undtrstood and ap-
preciated is that the Eskimo beehive
snow house represents true arch build-
ing. It requires no scaffolding in build-
ing and it exerts no outward thrust.
In the ordinary keystone arch used
by builders, a temporary structure
must be erected to hold the walls up
until the keystone is fitted in position,
and the base must be buttressed
against an outward thrust The Eski-
mo does not have to consider these
points. There ts no outward thrust,
and the top keystone is not necessary
to hold the structure up. It is doubt-
ful whether such an arch could be built
of brick or stone without scaffolding,
but with the snow blocks it is a simple
matter.
Secret Door Lock
The sketch shows the construction of
a lock I have on a door which is quite
a mystery to those who do not know
how it operates. It also keeps them
out. The parts of the lock on the in-
side of the door are shown in Fig. 1.
These parts can be covered so that no
one can see them.
,t
>L
The ordinary latch and catch A are
attached to the door in the usual man-
ner. The latch is lifted with a stick of
wood B, which is about 1 ft. long and
1 in. wide, and pivoted about two-
thirds of the way from the top as
shown. The latch A is connected to
the stick B with a strong cord run
through a staple to secure a right-an-
gle pull between the pieces, A nail, C,
keeps the stick B from falling over to
the left. The piece of wood, D, is 6 or
8 in. long and attached to a bolt that
runs through the door, the opposite
end being fastened to the combination
dial. Two kinds of dials are shown in
Fig. 2. The piece D is fastened on the
bolt an inch or two from the surface of
the door to permit placing a spiral
spring of medium strength in between
as shown in Fig. 3. The opposite end
of the bolt may be screwed into the
dial, which can be. made of wood, or
an old safe dial will do. A nail is
driven through the outer end of the
piece D and the end cut off so that it
will pass over the piece B when the
dial is turned. When the dial is pulled
out slightly and then turned toward
the right, the nail will catch on the
ly v^<v.^v_'Vl^_
piece B and open the latch. — Contrib- The hinges must be the kind for at*
uted by Geo. Goodbrod, Union, Ore. taching inside of the box. If ordinary
butts are used, the cover of the box
A Convenient Hot-Dish Holder
When taking hot dishes from the
siove, it is very convenient to have
holders handy for use. For this pur-
pose I screwed two screweyes into the
ceiling, one in front of the stove di-
rectly above the place where the holder
should bang, and the other back of the
stove and out of the way. I next ran
a strong cord through the two eyes.
To one end of the cord I attached a
weight made of a clean lump of coal.
The cord being just long enough to
let the weight hang a few inches above
the floor and pass through both screw-
eyes. I fastened a small ring to the
other end to keep the cord from slip-
fing back by the pull of the weight,
then fastened two pieces of string to
the ring at the end of the cord and at-
tached an iron holder to the end of
each string. The strings should be
just long enough to keep the holders
just over the stove where they are al-
T
ways ready for use, as the weight
always draws them back to place. —
Contributed by R. S. Merrill, Syracuse,
New York.
Magic-Box Elscape
The things required to make this
trick are a heavy packing box with
cover, one pair of special hinges, one
or two hasps for as many padlocks and
a small buttonhook, says the Sphinx.
Bo* with HlasM and Lctk
must be cut as much short as the
thickness of the end board. The hinges
should have pins that will slip easily
through the parts.
Before entering the box the per-
former conceals the buttonhook on his
person, and as soon as the cover is
closed and locked, and the box placed
in a cabinet or behind a screen, he
pushes the pin or bolt of the hinge out
far enough to engage the knob end
with the buttonhook which is used to
pull the pin from the hinge. Both
hinges are treated in this manner and
the cover pushed up, allowing the per-
former to get out and unlock the pad-
locks with a duplicate key. The bolts
are replaced in the hinges, the box
relocked and the performer steps out
in view.
A Flour Sifter
When sifting flour in an ordinary
sieve I hasten the process and avoid the
disagreeable necessity of keeping my
hands in the flour by taking the top
from a small tin lard can and placing
it on top of the flour with its sharp
edges down. When the sieve is
shaken, the can top will round up the
flour and press it through quickly.—
Contributed by L. Alberta Norrell,
Augusta, Ga.
QAn automobile horn with the bulb
and reed detached makes a good
funnel. It must be thoroughly cleaned
and dried after using as a funnel.
jOOgIc
How to Mate Ctnner Pieces fyr a Hotter Pad
To protect the corners of blotting
pads such as will be found on almost
every writing desk, proceed as follows :
First, make a design of a size pro-
portionate to the size of the pad and
make a right-angled triangle, as shown
in Fig. 1, on drawing paper. Leave a
small margin all around the edge and
then place some decorative form there-
in. Make allowance for daps on two
sides, as shown, which may later be
turned back and folded under when the
metal is worked. It should be noted
that the corners of the design are to
be clipped slightly. Also note the
slight overrun at the top with the re-
sulting V-shaped indentation. .
To make a design similar to the one
shown, draw one-half of it, then fold
along the center line and rub the back
of the paper with a knife handle or
some other hard, smooth surface, and
the other half of the design will be
traced on the second side. With the
metal shears, cut out four pieces of
copper or brass of No. S8 gauge and
with carbon paper trace the shape and
decorative design on the metal. Then
cut out the outline and file the edges
smooth.
Cover the metal over with two coats
of black aspbaltum varnish, allowing
each coat time to dry. Cover the back
and all the face exc^t the white back-
ground. Immerse in a solution of 3
parts water, 1 part nitric acid and 1
part sulphuric acid. When the metal
has been etched to the desired depth,
about 1-38 of an inch, remove it and
clean off the asphaltum with turpen-
tine. Use a stick with a rag tied on
the end for this purpose so as to keep
the solution off the hands and clothes.
The four pieces should be worked at
the same time, one for each corner.
It remains to bend the flaps. Place
the piece in a vise, as shown in Fig. 3,
and bend the flap sharply to a right
angle. Next place a piece of metal of
a thickness equal to that of the blotter
sad at the bend and with the mallet
sring the flap down parallel to the face
of the corner piece, Fig. 3. If tiie
measuring has been done properly, the
flaps ought to meet snugly at the cor-
ner. If they do not, it may be neces-
sary to bend them back and either re-
move some metal with the shears or to
work the metal over farther. All the
edges should be left smooth, a meul
file and emery paper being used for
this purpose.
If a touch of color is desired, it may
be had by filling the etched parts with
enamel tinted by the addition of oil
colors, such as are used for enameling
b thtubs. After this has dried, smooth
it off with pumice stone and water. To
keep the metal from tarnishing, cover
it with banana-oil lacquer.
Boring Holes in Cork
' The following hints will be found
useful when boring holes in cork. In
boring through rubber corks, a little
household ammonia applied to the bit
enables one to make a much smoother
hole and one that is nearly the same
size at both openings. The common
cork, if rolled under the shoe sole, can
be punctured easily and a hole can be
bored straighten The boring is made
easier by boiling the cork, and this
operation insures a hole that will be
the desired size and remain the size of
the punch or bit used.
d by Google
Self-Lighting Arc Searchlight
A practical and easily constructed
self-lighting arc searchlight can be
made in the following manner: Pro-
cure a large can, about 6 in. in diam-
eter, and cut three holes in its side
about S in. from the back end, and in
the positions shown in the sketch.
Two of the holes are cut large enough
to hold a short section of a garden hose
tightly, as shown at AA. A piece of
porcelain tube, B, used for insulation,
is fitted tightly in the third hole. The
hose insulation A should hold the car-
bon F rigidly, while the carbon E
should rest loosely in its insulation.
The inner end of the carbon E is
supported by a piece of No. 25 Ger-
man-silver wire, C, which is about 6
in. long. This wire runs through the
Aic in > Lu-ie Tin Cmn
porcelain tube to the binding post D.
The binding post is fastened to a wood
plug in the end of the tube. The tube
B is adjusted so that the end of the car-
bon E is pressing against the carbon F.
The electric wires are connected to the
carbon F and the binding post D. A
resistance, R, should be in the line.
The current. In passing through the
lamp, heats the strip of German-silver
wire, causing it to expand. This ex-
pansion lowers the end of the carbon
E, separating the points of the two
carbons and thus providing a space be-
tween them for the formation of an arc.
When the current is turned off, the
German-silver wire contracts and
draws the two carbon ends together
ready for lighting again. The feed can
be adjusted by sliding the carbon F
through its insulation.
A resistance for the arc may be made
by running the current through a water
rheostat or through 15 ft. of No. 25
gauge German-silver wire. — Contrib-
uted by R. H. Galbreath, Denver, Colo.
A Traveler's Shaving Mug
Take an ordinary collapsible drink-
ing cup and place a cake of shaving
soap in the bottom ring. This will pro-
vide a shaving mug always ready for
the traveler and one that will occupy
very little space in the grip.
Homemade Snowshoes
Secure four light barrel staves and
sandpaper the outside smooth. Take
two old shoes that are extra large and
cut off the tops and heels so as to leave
only the toe covering fastened to the
sole. Purchase two long book straps.
cut them in two in the middle and
fasten the ends on the toe covering, as
shown in Fig. 1. The straps are used
to attach the snowshoe to the regular
shoe. When buckling up the straps be
sure to leave them loose enough for the
foot to work freely, Fig. 3. Fasten the
barrel staves in pairs, leaving a space of
4 in. between them as shown in Fig. 3,
with thin strips of wood. Nail the old
Hade from Bar
shoe soles to crosspieces placed one-
third of the way from one end as
shown. — Contributed by David Brown,
Kansas City, Mo.
d by Google
Pish Signal for Ashing through Ice
Watching a fistiltne set in a hole cut
in the ice on a cold day is very dis-
agreeable, and the usual method is to
B«U and Banerr la ■ Boi
have some kind of a device to signal
the fisherman when a fish is hooked.
The "tipups" and the "jumping jacks"
serve their purpose nicely, but a more
elaborate device is the electric signal.
A complete electric outfit can be in-
stalled in a box and carried as con-
veniently as tackle.
An ordinary electric bell, A, Fig. 1,
having a gong 2y2 in. in diameter, and
a pocket battery, B, are mounted on the
bottom of the box. The electric con-
nection to the bell is plainly shown.
Two strips of brass, C, are mounted on
the outside of the box. The brass
strips are shaped in such a way as to
form a circuit when the ends are pulled
tc^ether. The box is opened and set
on the ice near the fishing hole. The
fish tine is hung over a round stick
placed across the hole and then tied to
the inside strip of brass. When the
fish is hooked the line will pull the
brass points into contact and close the
electric circuit.
Homemade Floor Polisher
A floor polisher is something that one
does not use but two or three times a
year. Manufactured polishers come
in two sizes, one weighing 15 lb., which
is the right weight for family use, and
one weighing S6 lb.
A polisher can be made at home that
will do the work just as well. Procure
a wooden box such as cocoa tins or
starch packages are shipped in and
stretch several thicknesses of flannel
or carpet over the bottom, allowing
the edges to extend well up the sides,
and tack smoothly. Make a handle of
two stout strips of wood, 36 in. long,
by joining their upper ends to a shorter
crosspiece and nail it to the box. Place
three paving bricks inside of the box,
and the polisher will weigh about 16
lb., just the right weight for a woman
to use. The polisher is used by rub-
bing with the grain of the wood. — Con-
tributed by Katharine D. Morse, Syr-
acuse, N. Y.
Tying Paper Bag to Make a Carr3nng
Handle
In tying the ordinary paper bag, the
string can be placed in the paper in
such a way that it will form a handle
to carry the package, and also prevent
any leakage of the contents. The bag
must be long enough for the end to
fold over as shown in Fig. 1. The
folds are made over the string, as in
Stagu In Tjlnc ■ Sac
Fig. 8. The string is then tied. Fig. 3,
to form a handle. Fig. 4, — Contributed
by James M. Kane, Doylestown, Pa.
jOOgIc
Equilibrator for Model Aen^Ianes
On one of my model aeroplanes I at the lower end and two lines con-
placed an equilibrator to keep it bal- necting the ends of the planes at the
anced. The device was attached to a upper end. These are shown in Fig.
crosspiece fastened just below the 1. When the aeroplane tips, as
Wuplag Iha Aarapluic Wine*
propeller between the main frame up- shown in Fig. S, the weight draws the
rights. A stick was made to swing lines to warp the plane so it will right
on a bolt in the center of the cross- itself automatically. — Contributed by
piece to which was attached a weight Louis J. Day, Floral Park, N. Y.
Repairing Christmas-Tree Decora-
tions
Small glass ornaments for Christ-
mas-tree decora-
tion are very
easily broken on
the line shown
in the sketch.
These can be
easily repaired
by inserting in
the neck a. piece of match, toothpick
or splinter of wood and tying the
banging string to it
Homemade Scroll Saw
A scroll saw, if once used, becomes
indispensable in any home carpenter
chest, yet it is safe to say that not one
in ten contains it A scroll saw is
much more useful than a keyhole saw
for sawing small and irregular holes,
and many fancy knick-knacks, such as
brackets, book racks and shelves can
be made with one.
A simple yet serviceable scroll saw
frame can be made from a piece of
cold-rolled steel rod, 3/32 or % in. in
diameter, two %-in. machine screws,
four washers and four square nuts.
The rod should be 36 or 38 in. long,
bent as shown in Fig. 1. Place one
washer on each screw and put the
screws through the eyelets, A A, then
place other washers on and fasten in
place by screwing one nut on each
screw, clamping the washers against
the frame as tightly as possible. The
saw, which can be purchased at a local
hardware store, is fastened between
the clamping nut and another nut as
shown in Fig. 3.
If two wing nuts having the same
number and size of threads are avail-
able, use them in place of the outside
nuts. They are easier to turn when
joglc
inserting a saw blade in a hole or
when removing broken blades. — Con-
tributed by W. A. Scranton, Detroit,
Michigan.
How to Make a Watch Fob
The fixtures for the watch fob shown
— half size — may be made of either
brass, copper, or silver. Silver is the
most desirable but,
of course, the most
expensive. The
buckle is to be pur-
chased. The con-
nection is to be of
leather of a color to
harmonize with
that of the fixtures.
The body of the fob
may be of leather
of suitable color or
of silk. Of the
leathers, green and
browns are the
most popular,
though almost any
I /^ — ■ -sr color may be ob-
yP^n tained.
^■■•'W m Make full size
drawings of the
outline and design of the fixtures.
With carbon paper trace these on the
metal. Pierce the metal of the parts
that are to be removed with a small
hand drill to make a place for the
leather or silk. With a small mcUl
saw cut out these parts and smooth
up the edges, rounding them slightly
so they will not cut the leather or silk.
Next cut out the outlines with the
metal shears. File these edges, round-
ing and smoothing with emery paper.
The best way of handling the decora-
tive design is to etch it and, if copper
or brass, treat it with color.
For etching, first cover the metal
with black asphaltum varnish, on the
back and all the parts that are not to be
touched with the acid. In the design
shown, the unshaded parts should not
be etched and should, therefore, be
covered the same as the hack. Apply
tvo coats, allowing each time to dry,
after which immerse the metal in a
solution prepared as follows: 3 parts
water, 1 part nitric acid, 1 part sul-
phuric acid. Allow the metal to re-
main in this until the acid has eaten to
a depth of a*! in., then remove it and
clean in a turpentine bath, using a
swab and an old stiff brush. The
amount of time required to do the etch-
ing will depend upon the strength of
the liquid, as well as the depth of etch-
ing desired.
For coloring silver, as well as brass
and copper, cover the metal with a so-
lution of the following : ^ pt. of water
in which dissolve, after breaking up,
five cents' worth of sulphureted potas-
sium. Put a teaspoonful of thi9 into
a tin with 2 qt. of water. Polish a piece
of scrap metal and dip it in the solu-
tion. If it colors the metal red, it has
the correct strength. Drying will
cause this to change to purple. Rub
off the highlights, leaving them the
natural color of the metal and apply a
coat of banana-oil lacquer.
An Austrian Top
All parts of the top are of wood and
they are simple to make. The handle
is a piece of pine, 6^/4 in- long, 1% in.
wide and % in. thick. A handle, % in.
in diameter, is formed on one end, al-
lowing only tVi in, of the other end
to remain rectangular in shape. Bore
a %-in. hole in this end for the top.
A 1/16-in. hole is bored in the edge to
enter the large hole as shown. The
top can be cut from a broom handle or
a round stick of hardwood.
To spin the top, take a piece of stout
cord about 8 ft. long, pass one end
through the 1/16-in. hole and wind it
on the small part of the top in the
usual way, starting at the bottom and
l:v v^<v.^v_'Vl^_
winding upward. When the shank is
covered, set the top in the %-in. hole.
Take hold of the handle with the left
hand and the end of the cord with the
right hand, give a good quick pull on
the cord and the top will jump clear of
the handle and spin vigorously. — Con-
tributed by J. F. Tholl, Ypsilanti,
Michigan.
Pockets (or Spools of Thread
A detachable pocket for holding
thread when sewing is shown here-
with. The di-
mensions may
be varied to ad-
mit any number
or size of
spools. Each
pocket is made
to take a cer-
tain size spool,
the end of the
thread being
run through the
cloth front for
obtaining the length for threading a
needle. This will keep the thread from
becoming tangled and enable it al-
ways to be readily drawn out to the re-
quired length. — Contributed by Miss
L. Alberta Norrell, Augusta, Ga.
Cleaning Leather on Furniture
Beat up the whites of three eggs
carefully and use a piece of flannel to
rub it well into the leather which will
become clean and lustrous. For black
leathers, some lampblack may be added
and the mixture applied in the same
way.
A Baking Pan
When making cookies, tarts or simi-
lar pastry, the housewife often wishes
for something by which to lift the
baked articles from the pan. The bak-
ing tray or pan shown in the sketch
not only protects the hands from bums
but allows the baked articles easily to
slip from its surface. The pan is made
from a piece of sheet iron slightly
larger than the baking space desired.
Each end of the metal is cut so that a
part may be turned up and into a roll
to make handles for the pan.
BUiliil Pan wtUuHil SIdM
A wire or small rod is placed be-
tween the handles as shown. This wire
is fastened at each end and a loop made
in the center. The pan can be re-
moved from the oven by placing a
stick through the loop and lifting it
out without placing the hands inside
the hot oven. The baking surface,
having no sides, permits the baked
articles to be slid off at each side with
a knife or fork. — A. A. Houghton,
Northville, Mich.
A Broom Holder
A very simple and effective device
for holding a broom when it is not in
use is shown in
the sketch. It
is m a d e of
heavy wire and
fastened to the
wall with two
screweyes, the
eyes forming
bearings for
the wire. The
small turn on
the end of the
straight part is
to h o 1 d the
hook out far
enough from
the wall t o
make it easy to place the broom in the
hook. The weight of the broom keeps
it in position. — Contributed by Irl
Hicks, Centralia, Mo.
HK
(TA string for drawing electric wires
into bent fixtures can be easily in-
serted by rolling it into a small hall
and blowing it througii while holding
one end.
d by Google
A Darkroom Lantern
Procure an ordinary 8-qt. glass fruit
jar, break out the porcelain lining in
the cover and cut a hole through the
metal, just large enough to fit over
the socket of an incan-
descent electric globe,
then solder cover and
socket together, says
Studio Light. Line
the inside of the jar
with two thicknesses
of good orange post-
office paper. The best
lamp for the purpose is
an 8-candlepower show-
case lamp, the same
as shown in the il-
lustration. Screw the
lamp into the socket
and screw the cover
onto the jar, and you have a safe light
of excellent illuminating power.
When you desire to work by white
light, two turns will remove the jar.
If developing papers are being
worked, obtain a second jar and line
with light orange paper, screw into
the cover fastened to the lamp and you
have a safe and pleasant light for
loading and development By attach-
ing sufficient cord to the lamp, it can
be moved to any part of the dark-
room, and you have three lamps at a
trifling cost.
Preventing Vegetables from Burning
in a Pot
Many housekeepers do not know
that there is a simple way to prevent
potatoes from burning and sticking to
the bottom of the pot. An inverted
pie pan placed in the bottom of the pot
avoids scorching potatoes. The water
and empty space beneath the pan saves
the potatoes. This also makes the
work of cleaning pots easier as no ad-
hering parts of potatoes are left to be
scoured out.
A Clothes Rack
A clothes-drying rack that has many
good features can be made as shown in
the illustration. When the rack is
PoMiBC Cldthca R>ch
closed it will fit into a very small space
and one or more wings can be used at
a time as the occasion or space per-
mits, and not tip over. The rack can
be made of any hard wood and the ma-
terial list is as follows:
1 Center poU. 1» in. nuaro by«2la,
4 Br>c». in in. Mo.rebT \2 in.
16 Horiiontal ban, I b> IH by 24 in.
4 Verticil plBCtn, K by 1 br 65 lo.
Attach the four
braces for the feet
with finishing nails
after applying a good
coat of glue.
The horizontal bars
are fastened to the
vertical pieces with
rivets using washers
on both sides. The
holes are bored a lit-
tle large so as to
make a slightly loose
joint. The other ends
of the bars are fast-
ened to the center
post with roundhead
screws. They are fastened, as shown
in the cross-section sketch, so it can
be folded up. — Contributed by Herman
Fosel, Janesville, Wis.
dbyGOOglO
Homemade Shower Bath
A Sbmr Bath That Cmu L«u Than On* DoUu to Uaka
While in the country during: vaca-
tion time, I missed my daily bath and
devised a shower bath that gave com-
plete satisfaction. The back porch
was inclosed with sheeting for the
room, and the apparatus consisted of
a galv an i zed-iron pail with a short
nipple soldered in the center of the
bottom and fitted with a valve and
sprinkler. The whole, after filling the
pail with water, was raised above
one's head with a rope run over a
pulley fastened to the roof of the
porch, and a tub was used on the floor
to catch the water. A knot should be
tied in the rope at the right place, to
keep it from running out of the pulley
while the pail is lowered to be filled
with water, and a loop made in the end,
which is placed over a screwhook
turned into the wall. If the loop is tied
at the proper place, the pail will be
raised to the right height for the per-
son taking the shower bath.
The water will run from 10 to 15
minutes. The addition of some hot
water will make a splendid shower
bath. — Contributed by Dr. C. H. Rosen-
thal, Cincinnati, O.
How to Make Small Sprocket Wheels
As I needed several small sprocket
wheels and had none on hand, I made
them quickly without other expense
than the time required, from scrap
material. Several old hubs with the
proper size bore were secured. These
were put on an arbor and turned to the
size of the bottom of the teeth. Holes
Were drilled and tapped to correspond
to the number of teeth required and old
stud bolts turned into them. The
wheels were again placed on the arbor
and the studs turned to the required
size. After rounding the ends of the
studs, the sprockets were ready for use
and gave perfect satisfaction. — Con-
tributed by Charles Stem, Phillipsburg,
New York.
iv^ioOglc
Pot-Cover Closet
The sides of the cover closet are cut
as shown in Fig. 1 and shelves are
nailed between them at a slight angle.
the contents against the gate serves as
a check or stopper. If the gate is
raised slightly, it will permit a con-
tinuous flow of liquid of the desired
amount.
No dimensions are given as the space
and the sizes of the covers are not
always the same. The back is covered
with thin boards placed vertically.
The front can be covered with a cur-
tain or a paneled door as shown, —
Contributed by Gilbert A. Wehr, Bal-
timore, Md.
Aid in Mixing Salad DressiDg
Some cooks find it a very difficult
matter to prepare salad dressing, prin-
cipally mayonnaise dressing, as the con-
stant stirring and pouring of oil and
liquids are required in the operation.
The simple homemade device shown
in the accompanying sketch greatly as-
Saving Overexposed Developing
Prints
In using developing papers, either for
contact printing or enlargements, you
are, by all rules of the game, entitled
to a certain number of overexposed
prints, says a correspondent of Camera
Craft. But there is no reason why you
should lose either the paper or the time
and trouble expended in making these
prints. By using the following method,
you can turn these very dark prints into
good ones.
First : these overexposed prints must
be fully developed. Do not try to save
them by rushing them out of the de-
veloper into the short-stop or fixing
bath. The results will be poor, and, if
you try to tone them afterward, the
color will be an undesirable, sickly one.
Develop them into strong prints, thor-
oughly fix, and wash until you are sure
all hypo is removed. In my own prac-
tice, I carry out this part of the wortc
thoroughly, then dry the prints and lay
aside these dark ones until there is an
accumulation of a dozen or more, do-
ing this to avoid too frequent use of the
very poisonous bleaching solution.
The bleacher is made up as follows and
should be plainly marked "Poison."
sists in this work. It consists of a
stand to hold a bottle, the mouth of
which rests against a small gate
directly in the rear of the attached tin
trough. The weight of the bottle and
Place the dry print, without previous
wetting, in this solution. It will bleach
slowly and evenly, but, when it starts
to bleach, transfer it to a tray of water,
where it will continue' to bleach.
When the desired reduction has taken
place, stop the action at once by im-
mersing the print in a 10-per-cent so-
lution of borax. The prints may be al-
lowed to remain in this last solution
until they are finished. A good final
washing completes the process. This
washing must be thorough and a
l:v v^JV.^v_'Vl^_
tponge or a tuft of cotton used to clean
the surface of the print.
With a little practice, this method
of saving prints that are too dark be~
comes easy and certain. The prints
are lightened and at the same time im-
proved in tone, being made blue-black
with a delicate and pleasing quality
that will tempt you to purposely over-
expose some of your prints in order to
tone them by this method for certain
effects. The process is particularly
valuable to the worker in lar^e sizes, as
it provides a means of makmg quite a
saving of paper that would otherwise
be thrown away.
An Ironing-Board Stand
An ordinary ironing board is cut
square on the large end and a slot cut
1^ in. wide and 4 in. long to admit
the angle support. The support is
placed against the table and the board
can be fastened with a small brass
paper fastener put through the top of
the holder. The blotting paper can
L.
^
Stand Attachad to Tibia
is pressed down against the outer notch
which jams against the table, thus
holding the board rigid and in such a
position as to give free access for iron-
ing dresses, etc. — Contributed by T. L.
Gniy, San Francisco, Cal.
A Desk Blotting Pad
Procure four sheets of blotting pa-
per, preferably the colored kind, as it
will appear clean much longer than
the white. The size of the pad de-
pends on the size of the blotting pa-
per.
Fold four pieces of ordinary wrap-
ping paper, 5 by 15 in. in size, three
times, to make it 5 by 5 in. Fold each
one from comer to corner as shown in
Fig. 1 and again as in Fig. 2. Paste
the last fold together and the corner
holders are complete. Put one on each
comer of the blotting paper. They
be easily changed by removing the
holders and fasteners. Comers com-
plete are shown in Fig. 3. — Contrib-
uted by J. Wilson Aldred Toronto,
Canada.
Sleeve Holders for Lavatories
A very handy article is an attach-
ment on wash basins or lavatories for
holding the sleeves back while washing
the hands. It is very annoying to have
the sleeves continually slip down and
become wet or soiled. The simple de-
vice shown herewith can be made with
bent wires or hooks and attached in
such a way that it can be dropped out
WIrea Attached to a Lavatacr
of the way when not in use. — Con-
tributed by L. }, Monahan, Oshkosh,
Wisconsin.
OA pencil eraser will remove the tar-
nish from nickel plate, and the ink
eraser will remove the rust from
drawing instmments.
d by Google
How to Make a Brass Bookmark
Secure a piece of brass of No. SO
gauge, having a width of 3^ in. and a
length of 6 in. Make a design similar
to that shown, the head of which is 2
in. wide, the shaft 1 in. wide below the
head and the extreme length 4% in.
Make one-half of the design, as shown
in Fig. 1, freehand, then trace the other
half in the usual way, after folding
along the center line. Trace the design
on the metal, using carbon paper,
which gives the outline of the design
Fig. 2.
With the metal shears, cut out
the outline as indicated by the draw-
ing. With files, smooth off any rough-
ness and form the edge so that it shall
be nicely rounded.
The parts of the design in heavy
color may be treated in several ways.
A very satisfactory treatment is ob-
tained by etching, then coloring. Clean
the metal thoroughly with pumice
stone and water or with alcohol before
the design is applied. Cover all the
metal that is not to be lowered with a
thick coating of asphaltum. Allow this
to dry, then put on a second coat. After
this has dried, thoroughly immerse the
metal in a solution composed as fol-
lows: 3 parts water, 1 part sulphuric
acid, 1 part nitric acid.
Allow the metal to remain in this
solution until the exposed part has
been eaten about ^ in. deep, then
remove it and clean off the asphaltum,
using turpentine. Do not put the
hands in the solution, but use a swab
on a stick.
For coloring olive green, use 8 parts
water to 1 part permuriate of iron.
Apply with a small brush.
The lines at A and B will need to
be cut, using a small metal saw. Pierce
a hole with a small drill. Fig. 3, large
enough to receive the saw and cut
along the lines as in Fig. 4. A piece of
wood with a V-shaped notch which is
fastened firmly to the bench forms the
best place in which to do such sawing.
The teeth of the saw should be so
placed that the sawing will be done on
the downward stroke. The metal must
be held firmly, and the saw allowed
time to make its cut, being held per-
pendicular to the work.
After the sawing, smooth the edges
of the metal with a small file and emery
paper. The metal clip may be bent
outward to do this part of the work.
Cheesebox-Cover Tea Trsy
The cover from a cheesebox can be
converted into a tea tray that is very
dainty for the piazza, or for serving an
invalid's breakfast
First sandpaper the wood until it is
smooth, then stain it a mahogany color.
The mahogany stain can be obtained
ready prepared. After the stain has
dried, attach brass handles, which can
l:v v^JV.^v_'Vl^_
be obtained for a small sum at an up-
holsterer's shop. A round embroid-
ered doily in the bottom adds to the
appearance of the tray. — Contributed
by Katharine D. Morse, Syracuse,
New York.
Piercing-Punch for Brass
Drill a %-in. hole through a block
of pine or other soft wood 2 in. thick.
Tack over one end of the hole a piece
of pasteboard in which seven coarse
sewing-machine needles have been in-
serted. The needles should be close
together and pushed through the
pasteboard until the points show. The
hole is then tilled with melted babbitt
metal. When this is cold, the block
is split and the oasteboard removed.
This tool makes neat pierced work and
in making brass shades, it does the
work rapidly. — Contributed by H.
Carl Cramer, East Hartford, Conn.
Kitchen Chopping Board
Cooks can slice, chop or mince veg-
etables and various other food rapidly
by placing the little device, as shown,
on a chopping board. It is an ordinary
staple, driven in just far enough to
allow a space for the end of an ordi-
nary pointed kitchen knife to fit in it.
The staple is driven in the edge of the
chopping board. The knife can be
raised and lowered with one hand, as
A Carpenter's Gauge
The home workshop can be supplied
with a carpenter's gauge without any
expense by the use of a large spool and
XnKi AtUcbwl to tha Botvd
the material is passed under the blade
with the other. Great pressure can be
applied and the knife will not slip.—
Contributed by M. M. Burnett, Rjch-
mond, Cal.
CSew straps to the sides of mattresses
and they can be handled much easier.
=^
Rouoil Stick Id ■ Bpoot
a round stick of wood- The stick
should be dressed to fit the hole in the
spool snugly and a small brad driven
through one end so that the point will
protrude about Vs in.
The adjustment of the gaug^ is se-
cured by driving the stick in the hole
in the direction desired. A better way
and one that will make the adjusting
easy is to file the point end of a screw-
eye flat and use it as a set screw
through a hole in the side of the spool.
A Flatiron Rest
The iron rest and wall hanger shown
in the sketch is made of sheet iron.
The upturned edges of the metal are
Board or Wall Iron Rat
bent to fit the sloping sides of the iron.
The holder and iron can be moved at
the same time. — Contributed by W. A.
Jaquythe, Richmond, Cal.
Ua« for Paper Bags
When groceries are delivered, save
the paper bags and use them for stor-
ing bread and cakes. Tie the neck of
the bag with a string and it will keep
the contents fresh and clean. — Contrib*
uted by Mrs. L. H. Atwell, Kissimroee,
Florida.
GIf a little chalk is rubbed on a file be-
fore filing steel, it will keep the chips
from sticking in the cuts on the file and
scratching die work.
d by Google
A Homemade Steam Turbine
By WILLIAM H, W^RNECKE
Procure some brass, about ^ in. thick
and 4 in. square ; 53 steel pens, not
over y^ in. in width at the ghank; two
enameled, or tin, saucers or pans, hav-
ing a diameter on the inside part of
£bout 4% in. ; two stopcocks with Ys-
in holes* one shaft; some pieces of
about 1 in. in diameter and ^ in. thick,
with a %-in. hole in the center, for
filling pieces which are first placed
around the shaft hole between the disk
antl side plates C, Fig. 1. The side
plates are then secured with some of
the ^-in, machine ecrews, using two
tf L '^^^i^r^^T ^ ""juiiiini'iiip^
brass, i^ in, thick, and several %-m.
machine screws.
Lay out two circles on the A-'"-
brass, one having a diameter of 3^ in.
and the other with a diameter of 2%
in. The outside circle is the size of
the finished brass wheel, while the in-
side circle indicates the depth to
which the slots are to be cut. Mirk
the point where a hole is to be drilled
for the shaft, also locate the drill holes,
as shown at A, Fig. 1. After the shaft
hole and the holes A are drilled in the
disk, it can be used as ^ template for
drilling the side plates C.
The rim of the disk is divided into
63 equal parts and radial lines drawn
from rim to line B, indicating the depth
of the slots. Slots are cut in the disk
with a hacksaw on the radial lines. A
small vise is convenient for holding the
disk while cutting the slots.
When cutting the disk out of the
rough brass, sufficient margin should
be left for filing to the true line. The
slots should be left in their rough state
as they have a better hold on the pens
which are used for the blades. The
pens are inserted in the slots and made
quite secure by forcing ordinary pins
on the inside of the pens and breaking
them off at the rim, as shown in Fig. i.
When the pens are all fastened two
pieces of metaf are provided, each
nuts on each screw. The nuts should
be on the side opposite the inlet valves.
The shaft hole may also be filed
square, a square shaft used, and the
ends filed round for the bearings.
The casing for the disk is made of
two enameled-iron saucers, Fig. 3,
bolted together with a thin piece of
asbestos between them to make a tight
joint. A %-in. hole is cut near the
edge of one of the saucers for the ex-
haust. If it is desired to carry the ex-
haust beyond the casing, a thin pipe
can be inserted Vi in. into the hole.
Holes are drilled through the pipe on
both inside and outside of the casing,
and pins inserted, as shown in Fig. 5.
Solder is run around the outside pin
to keep the steam from escaping. At
the lowest point of the saucer or cas-
ing a V&-in. hole is drilled to run off
the water. A wood plug will answer
for a stopcock.
If metal dishes, shaped from thick
material with a good coating of tin,
can be procured, it will be much easier
to construct the casing than if enam-
eled ware is used. The holes can be
easily drilled and the parts fitted to*
gether closely. All seams and sur-
faces around fittings can be soldered.
Nozzles are made of two stopcocks
having a %-in. hole. These are con-
nected to a %-in. supply pipe. The
l:v v^<v.^v_'Vl^_
nozzles should be set at an angle of 20
deg. with the face of the disk. The
nozzle or stopcock will give better re-
sults if the discharge end is filed par-
allel to the face of the disk when at an
angle of 30 deg. There should be a
space of V» in. between the nozzle and
the blades to allow for sufficient play.
Fig. 3.
The bearings are made of ^-in. brass
and bolted to the casing, as shown,
with ^-in. machine screws and nuts.
Two nuts should be placed on each
screw. The pulley is made by sliding
a piece of steel pipe on the engine shaft
and fastening it with machine screws
and nuts as shown in Fig. 6. If the
shaft is square, lead should be run into
the segments.
The driven shaft should have a long
bearing. The pulley on this shaft is
made of pieces of wood nailed to-
gether, and its circumference cut out
with a scroll saw. Flanges are screwed
to the pulley and fastened to the shaft
as shown in Fig. t.
The bearings are made of oak blocks
lined with heavy tin or sheet iron for
the running surface. Motion is trans-
mitted from the engine to the large
pulley by a thin but very good leather
belt.
Homemade Telegn^h Key
A simple and easily constructed
telegraph key may be made in the foN
lowing manner: Procure a piece of
sheet brass, about A in. thick, and cut
out a strip 3% in. long by % in. wide
Bend as shown in Fig. 1 and drill a
hole for the knob in one end and a
hole for a screw in the other. Procure
a small wood knob and fasten it in
place with a small screw. Cut a strip
of the same brass 3% in. long and -ft
in. wide and bend as shown in Fig. 2.
Drill two holes in the feet for screws
to fasten it to the base, and one hole
in the top part for a machine screw,
and solder a small nut on the under
side of the metal over the hole.
Mount both pieces on a base 4%
by 3% by % in., as in Fig. 3, and where
Bran K*r on ■ Wood Saw
the screw of the knob strikes the base
when pressed down, put in a screw or
brass-headed tack for s. contact
Fasten the parts down with small
brass wood-screws and solder the con-
nections beneath the base. Binding-
posts from an old battery cell are used
on the end of the base. The screw on
top of the arch is used to adjust the
key for a long or short stroke-^Ton-
tributed by S. V. Cooke, Hamilton,
Canada.
Keeping Food Cool in Camps
Camps and suburban homes located
where ice is hard to get can be pro-
vided with a cooling arrangement here-
in described that will make a good
substitute for the icebox. A barrel is
sunk in the ground in a shady place,
allowing plenty of space about the out-
side to fill in with gravel, A quantity
of small stones and sand is first put in
wet, A box is placed in the hole over
the top of the barrel and filled in with
clay or earth well tamped. The porous
condition of the gravel drains the sur-
plus water after a rain.
The end of the barrel is fitted with a
light cover and a heavy door hinged to
the box. A small portion of damp sand
is sprinkled on the bottom of the barrel.
The covers should be left open occa-
sionally to prevent mold and to remove
any bad air that may have collected
from the contents. — Contributed by P.
Smith, La Salle, 111.
d by Google
Homemade Work Basket
Secure a cheese box about 13 in. high
and 16 in. or more in diameter. It will
pay you to be careful in selecting this
box. Be sure to have the cover. Score
the wood deeply with a carpenter's
gauge inside and out 3^ in. from the
top of the box. With repeated scoring
the wood will be almost cut through or
in shape to finish the cut with a knife.
Now you will have the box in two
pieces. The lower part, fii^ in. deep
over all, we will call the basket, and
the smaller part will be known as the
tray.
Remove the band from the cover and
cut the boards to fit in the tray flush
with the lower
edge, to make
the bottom.
Fa s t en with
%-in brads. The
kind of wood
used in making
these boxes
cracks easily and
leaves a rough
surface which
should be well
sandpapered.
The four legs
are each % in.
— square and 30^
in, long. The
tops should be beveled to keep them
from splintering at the edges. With a
string or tape measure, find the cir-
cumference of the tray or basket and
divide this into four equal parts, ar-
ranging the lap seam on both to come
midway between two of the marks.
When assembling, make these seams
come between the two back legs.
The tray is placed 1^ in. from the top
end and the basket 6% in. from the
bottom end of the legs. Notch the legs
at the lower point about % in. deep and
H4 in. wide to receive the band at the
lower end of the basket. Fasten with
%-in, screws, using four to each leg,
three of which are in the basket. In-
sert the screws from the inside of the
box into the legs.
Stain the wood before putting in the
lining. If all the parts are well ^nd-
papered, the wood will take the stain
nicely. Three yards of cretonne will
make a very attractive lining. Cut two
sheets of cardboard to fit in the bottom
of the tray and basket. Cover them
with the cretonne, sewing on the back
side. Cut four strips for the sides from
the width of the goods 5^ in, wide and
four strips 10 in. wide. Sew them end
to end and turn down one edge to a
depth of 1 in, and gather it at that
point, — also the lower edge when nec-
essary^ Sew on to the covered card-
boards. Fasten them to the sides of
the tray and basket with the smallest
upholsterers' tacks. The product of
your labor will be a very neat and use-
ful piece of furniture. — Contributed by
Stanley H. Packard, Boston, Mass,
A Window Display
A novel and attractive aeroplane
window display can be easily made in
the following manner : Each aero-
plane is cut from folded paper, as
shown in the sketch, and the wings
bent out on the dotted lines. The
folded part in the center is pasted to-
gether, Elach aeroplane is fastened
with a small thread from the point A
as shown, A figure of an airman can
be pasted to each aeroplane. One or
more of the aeroplanes can be fastened
in the blast of an electric fan and
kept in flight the same as a kite. The
fan can be concealed to make the dis-
play more real. When making the
display, have the background of such
a color as to conceal the small threads
holding the aeroplanes. — Contributed
by Frederick Hennighausen, Balti-
more, Md.
d by Google
How to Hake a Flint Arrowhead
If you live where flints abound, pos-
sess the requisite patience and the
knack of making things, you can, with
the crudest of tools and a little prac-
tice, chip out as good arrowheads as
any painted savage that ever drew a
bow.
Select a piece of straight-grained
6int as near the desired shape as pos-
sible. It may be both longer and
wider than the finished arrow but it
should not be any thicker. The side,
edge and end views of a suitable frag-
ment are shown in Fig. 1. Hold the
piece with one edge or end resting on
a block of wood and strike the upper
edge lightly with a hammer, a small
boulder or anything that comes handy
until the piece assumes the shape
shown in Fig. 2.
The characteristic notches shown in
the completed arrow. Fig. 3, are
chipped out by striking the piece
lightly at the required points with the
edge of an old hatchet or a heavy
flint held at right angles to the edge
of ' the arrow. These heads can be
nude so that they cannot be distin-
guished from the real Indian arrow-
heads. — Contributed by B. Orlando
Taylor, Cross Timbers, Mo.
fitted with a small handle as shown in
the sketch. Take the ordinary pad and
work the hinge until it opens freely.
Handl* on Covtr
If necessary apply a little oil and
spread the flanges of the cover slightly.
Saw off the top of a common wood
clothespin just above the slot, saving
all the solid part. Fasten this to the
cover near the back side in an upri^t
position with a screw. A tap on the
front side of the pin will turn it over
backward until the head rests on the
desk thus bringing the cover up in the
upright position. When. through using
the pad, a slight tap on the back side of
the cover will turn it down in place —
Contributed by H. L, Crockett, Glov-
ersvtlle, N. Y.
Concrete Kennel
The kennel shown in the illustra-
tion is large enough for the usual size
of dog. It is cleanly, healthful and
more ornamental than the average ken-
An Opening Handle for a Stamp Pad
A stamp pad is a desk necessity and
the cleanliness of one depends on keep-
ing it closed when it is not in use. The
opening and closing of a pad requires
both hands and consequently the clos-
ing of a pad is often neglected in order
to avoid soiling the fingers. This
trouble can be avoided if the pad is
nolahtd KtDDd
nel. This mission style would be in
keepii)g with the now popular mission
and simi-missioa style home, and, with
lOOglc
slight modifications, it could be made After this is done, take a small half-
to conform with the ever beautiful round file and smooth the edges into
colonial home. It is not difficult to shape and good form.
The photograph print should be
quite small — less than ^ in. across the
face. Trim the print to a size a little
larger than the opening in the shell,
and secure it in place with glue or
paste. It may be well to fill the shell
with cotton. Mount the shell on a
small card with glue, or if desired, a
mount of different shape can be made
of burnt woodwork. — Contributed by
C. S. Bourne, Lowell, Mass.
CODCTCt* Porm*
build and will keep in good shape for
many years.
The dimensions and the manner of
making the forms for the concrete, and
the location for the bolts to hold the
plate and rafters, are shown in the dia-
gram. — Contributed by Edith E. Lane,
EI Paso, Texas.
Nutshell Photograph Novelty
Split an English walnut in the cen-
ter, remove the contents, and scrape
out the rough parts. Make an oval
Spoonholder on a Kettle
In making marmalade and jellies the
ingredients must be stirred from time
to time as the cooking proceeds. After
stirring, —
some of the
mixture
always re-
mains on the
spoon. Cooks
often lay the
s p o n on a
plate or
stand it
against the
cooking utensil with the handle down.
Both of these methods are wasteful.
The accompanying illustration shows
a device made of sheet copper to hold
the spoon so that the drippings will
return to the cooking utensil. The
copper is not hard to bend and it can
be shaped so that the device can be
used on any pot or kettle. — Contributed
by Edwin Marshall, Oak Park, III.
opening by filing or grinding. If a file
is used, it should be new and sharp.
Kepairing Cracked Gramophone
Records
Some time ago I received two
gramophone records that were cracked
in shipment but the parts were held
together with the paper label. As
these were single-faced disk records,
I used the following method to stick
them together: I covered the back of
one with shellac and laid the two back
to back centering the holes with the
crack in one running at right angles
l:v v^JV.^v_'Vl^_
to the crack in the other. These were
placed on a flat surface and a weight
set on them. After several hours' dry-
ing, I cleaned the surplus shellac out
of the holes and played them.
As the needle passed over the cracks
the noise was hardly audible. These
records have been played for a year and
they sound almost as good as new. —
Contributed by Marion P. Wheeler,
Greenleaf, Oregon,
A Postcard Rack
The illustration shows a neat rack
for postcards. Those having homes
New Use for a Vacuum Cleaner
An amateur mechanic who had been
much annoyed by the insects which
were attracted to his electric lights
found a solution in the pneumatic moth-
trap described in a recent issue of
Popular Mechanics, He fixed a funnel
to the end of the intake tube of a
vacuum cleaner and hung it under a
globe. The insects came to the light,
circled over the funnel and disap-
peared. He captured several pounds in
a few hours. — Contributed by Geo. F.
Turl, Canton, III.
Filtering with a Small Funnel
In filtering a large amount of solu'
tion one usually desires some means
other than a large funnel and some-
thing to make the watching of the
process unnecessary. If a considerable
quantity of a solution be placed in a
large bottle or flask, and a cork with a
small hole in it inserted in the mouth,
and the apparatus suspended in an in-
verted position over a small funnel so
that the opening of the cork is just be-
low the water level in the funnel, the
filtering process goes on continuously
with no overflow of the funnel.
As soon as the solution in the funnel
is below the cork, air is let into the
flask and a small quantity of new solu-
tion is let down into the funnel. The
process works well and needs no
watching, and instead of the filtrate
being in a large filter paper, it is on
cue small piece and - can be handled
with ease. — Contributed by Loren
V/ard, Des Moines. Iowa.
Plnl*h«<lRMk
with mission-style furniture can make
such a rack of the same material as the
desk, table or room furnishings and
finish it in the same manner.
The dimensions are given in the de-
tail sketch. The two ends are cut from
^/4-in. material, the bottom being %
in. thick. Only three pieces are re-
quired, and as they are simple in de-
sign, anyone can cut them out with a
f
N
'-
t
.1
(
■>^
.i'
D«uUi of th« R«J(
saw, plane and pocket knife — Con-
tributed by Wm. Rosenberg, Wor-
cester, Mass.
Substitute Shoe Horn
A good substitute for a shoe horn is
a handkerchief or any piece of cloth
used in the following way : Allow part
of the handkerchief or cloth to enter
the shoe, place the toe of the foot in
the shoe so as to hold down fhe cloth,
and by pulling up on the cloth so as to
keep it taut around the heel the foot
will slide into the shoe just as easily
as if a shoe horn were used. — Contri-
buted by Thomas E. Dobbins, Glen-
brook, Conn.
dbyGOOgIC
Building: ^ Small Photographic Dark Room
In building a photographic dark
room, it is necessary to make it per-
fectly light-tight, the best material to
use being matched boards. These
boards are tongued and grooved and
when put togeUier effectually prevent
the entrance of light.
The next important thing to be con-
sidered is to make it weather-tight, and
as far as the sides are concerned the
matched boards will do this also, but
it is necessary to cover the roof with
felt or water-proof paper.
The best thickness for the boards is
1 in., but for cheapness % in. will do
as well, yet the saving is so little that
the 1-in. boards are preferable.
The dark room shown in the accom-
panying sketch measures 3 ft. 6 in. by
5 f t 6 m., the height to the eaves being
6 ft. Form the two sides shown in Fig
1, fixing the crosspieces which hold the
boards together in such positions that
the bottom one will act as a bearer for
the floor, and the second one for the
developing bench. Both sides can be
put together in this way, and both
exactly alike. Keep the ends of the
crosspieces back from the edges of the
boards far enough to allow the end
boards to lit in against them.
One of the narrow sides can be
formed in the same way, fixing the
crosspieces on to correspond, and then
these three pieces can be fastened to-
gether by screwing the two wide sides
on the narrow one.
Lay the floor next, screwing or nail-
ing the boards to the crosspieces, and
making the last board come even with
the ends of the crosspieces, not even
with the boards themselves. The single
boards can then be fixed, one on each
side of what will be the doorway, by
screwing to the floor, and to the out-
side board of the sides. At the top of
the doorway, fix a narrow piece be-
tween the side boards, thus leaving a
rectangular opening for the door.
The roof boards may next be put on,
nailing the to each other at the ridge,
and to the sides of the room at the
outsides and eaves. They should over-
hang at the sides and eaves about 2
in., as shown in Figs. 3 and 4.
One of the sides with the crosspieces
in place will be as shown in Fig. 2 in
section, all the crosspieces and bearers
intersecting around the room.
The door is made of the same kind
of boards held together with cross-
pieces, one of which is fastened so as
to fit closely to the floor when the door
is hinged, and act as a trap for the
light. The top crosspiece is also fast-
ened within 1 in. of the top of the door
for the same reason.
Light traps are necessary at the sides
and top of the door. That at the hinged
side can be as shown at A, Fig. 5, the
closing side as at B, and the top as at
C in the same drawing. These are all
in section and are self-explanatory. In
hinging the door, three butt hinges
should be used so as to keep the joint
close.
The flttings of the room are as shown
sectionally in Fig. 6, but before fixing
these it is best to line the room with
heavy, brown wrapping paper, as an
additional safeguard against the en-
trance of light.
The developing bench is 18 in. wide,
and in the middle an opening, 9 by 11
in., is cut, below which is fixed the sink.
It is shown in detail in Fig. ?, and
should be zinc lined.
The zinc should not be cut but folded
as shown in Fig. 8, so that it will fit
inside the sink. The bench at each side
of the sink should be fluted (Fig. 9),
so that the water will drain off into the
sink, A strip should be fixed along
the back of the bench as shown in Figs.
6 and 9, and an arrangement of slats
(Fig. 10), hinged to it, so as to drop
on the sink as in Fig. 6, and shown to
a latter scale in Fig. 11.
A shelf for bottles and another for
plates, etc., can be fixed above the de-
veloping bench as at D and E (Fig. 6)
and another as F in the same drawing.
This latter forms the bottom of the
tray rack, which is fixed on as shown
jOOgIc
a Dark Ron&>
i,,^,ooglc
in Fig. 13. The divisions of the tray
rack are best fitted loosely in grooves
formed by fixing strips to the shelves
and under the bench and sink as in
Fig. 13.
Extra bearing pieces will be wanted
for the shelves mentioned above, these
being shown in Fig. 14. The window
is formed by cutting an opening in the
side opposite the door, and fixing in it
a square of white glass with strips of
wood on the inside and putty on the
outside, as in Fig. 15. A ruby glass is
framed as shown at G, Fig. 16, and
arranged to slide to and fro in the
grooved runners H, which makes it
possible to have white light, as at I,
or red light as at K, Fig. 16. The
white glass with runners in position is
shown at L in the same drawing, but
not the red glass and frame. Ventila-
tion is arranged for by boring a series
of holes near the floor, as at M, Fig,
6, and near the roof as at N in the same
drawing, and trapping the light with-
out stopping the passage of air, as
shown in the sections, Fig. 17.
The finish of the roof at the gables is
shown in Fig. 18, the strip under the
boards holding the felt in position when
folded under, and the same is true of
the roll at the top of the roof in Fig. 19.
The house will be much strengthened
if strips, as shown in Fig, 30, are fast-
ened in the corners inside, after lin-
ing with brown paper, screwing them
each way into the boards.
The door may have a latch or lock
with a knob, out should in addition
have two buttons on the inside, fixed
so as to pull it shut tightly at top and
bottom. A waste pipe should be at-
tached to the sink and arranged to
discharge through the floor, A cistern
with pipe and tap can be fastened in
the top of the dark room, if desired, or
the room may be made with a flat roof,
and a tank stand on it, though this is
hardly advisable.
It is absolutely necessary that the
room be well painted, four coats at first
is not too many, and one coat twice a
year will keep it in good condition.
A brick foundation should be laid so
that no part of the room touches the
ground.
The Versatile Querl
"Querl" is the German name for a
kitchen utensil which may be used as
an egg-beater, potato-masher or a
lemon-squeezer. For beating up an
egg in a glass, mixing flour and water,
or stirring cocoa or chocolate, it is bet-
ter than anything on the market.
Querl Hade of
This Utensil is made of hardwood,
preferably maple or ash. A circular
piece about 2 in. in diameter is cut from
J4-in. stock and shaped like a star as
shown in Fig. 1, and a %-in. hole bored
in the center for a handle. The handle
should be at least 12 in. in length and
fastened in the star as shown in Fig. 2.
In use, the star is placed in the dish
containing the material to be beaten or
mixed and the handle is rapidly rolled
between the palms of the hands. — Con-
tributed by W. Karl Hilbrich, Erie,
Pennsylvania.
An Emergency Soldering Tool
Occasionally one finds a piece of
soldering to do which is impossible to
reach with even the smallest of the or-
dinary soldering irons or coppers. If
a length of copper wire, as large as
the job will permit and sufficiently long
to admit being bent at one end to
form a rough handle, and filed or
dressed to a point on the other, is
heated and tinned exactly as a regular
ly v^<v.^v_'Vl^_
copper should be, the work will cause three surfaces and the mortise is cut
■ no trouble on account of inaccessibil- sloping to match. The bottom surface
ity. — Contributed by E. G. Smith, of the mortise is the same width at
Eureka Springs, Ark. .
Smoothing Paper after Erasing
When an ink line is erased the rough-
ened surface of the paper should be
smoothed or polished so as to prevent
the succeeding lines of ink from spread-
ing. A convenient desk accessory for
this purpose can be made of a short
piece of hardwood and two bone collar
buttons.
File off the head of one button at A
and the base from another at B. Bore
a small hole D and E in each end of
the wood handle C and fasten the but-
ton parts in the holes with glue or seal-
ing wax. The handle can be left the
shape shown or tapered as desired.
The small end is used for smoothing
small erasures and the other end for
larger surfaces.
A Cherry Seeder
An ordinary hairpin is driven part
way into a small round piece of wood,
about % in. in diameter and 2 or 2^
in. long, for a handle, as shown in the
sketch. The hairpin should be a very
Hllrplo In Stick
smalt size. To operate, simply insert
the wire loop into the cherry where
the stem has been pulled off and lift
out the seed. — Contributed by L. L.
Schweiger, Kansas City, Mo.
A Dovetail Joint
The illustration shows an unusual
dovetail joint, which, when put to-
gether properly is a puzzle. The tenon
or tongue of the joint is sloping on
both ends, the top being tapering to-
ward the base of the tongue. — Contrib-
uted by Wm. D. Mitchell, Yonkets,
New York.
Base for Round-End Bottles
The many forms of round-bottomed
glass bottles used in chemical labora-
tories require some special kind of sup-
port on which they can be safely placed
from time to time when the chemist
Ban Hnila of Cork*
does not, for the moment, need them.
These supports should not be made of
any hard material nor should they be
good conductors of heat, as such quali-
ties would result in frequent breakage.
A French magazine suggests mak-
ing the supports from the large corks
of glass Jars in which crystal chemicals
are usually supplied from the dealers.
The manner of making them is clearly
shown in the sketch. Each cork is cut
as in Fig. 1 and placed on a wire ring
(Fig. 2) whose ends are twisted to-
gether and the last section of cork is
cut through from the inner side to the
center and thus fitted over the wire
covering the twisted ends, which binds
them together. The corks in use are
shown in Fig. 3.
izocbyGOOgIC
Rustic Window Boxes
Instead of using an ordinary green-
painted window box, why not make an
artistic one in which the color does not
clash with the plants contained in it
but rather harmonizes
with them.
Such a window box
can be made by anyone
having usual mechanical
ability, and will furnish
more opportunities for
artistic and original de-
sign than many other
articles of more compli-
cated construction.
The box proper should
be made a little shorter
than the length of the
window to allow for the
extra space taken up in
trimming and should be
nearly equal in width to
the sill, as shown in
Fig. 1. If the sill is in-
clined, as is usually the
case, the box will require
a. greater height in front, to make it
set level, as shown in Fig. 3,
The box should be well nailed or
screwed together and should then be
painted all over to make it more dura-
ble. A number of ^-in. holes should
be drilled in the bottom, to allow the
excess water to run out and thus pre-
vent rotting of the plants and box.
Having completed the bare box, it
may be trimmed to suit the fancy of the
maker. The design shown in Fig. 1 is
very simple and easy to construct, but
may be replaced with a panel or other
design. One form of panel design is
shown in Fig. 3.
Trimming having too rough a sur-
face will be found unsuitable for this
work as it is difiicult to fasten and
cannot be split as well as smooth trim-
ming. It should be cut the proper
length before being split and should
be fastened with brads. The half-
round hoops of barrels will be found
very useful in trimming, especially for
hlling'iQ purposes, and by using them
the operation of splitting b avoided
After the box is trimmed, the rustic
work should be varnished, in order to
thoroughly preserve it, as well as im-
prove its appearance.
Artlttlc Flower Boies
Antidote for Squirrel Pest
To the owner of a garden in a town
where squirrels are protected by law,
life in the summer time is a vexation.
First the squirrels dig up the sweet
corn and two or three replantings are
necessary. When the corn is within
two or three days of being suitable for
cooking, the squirrels come in droves
from far and near. They eat all they
can and carry away the rest. When
the corn is gone cucumbers, cabbages,
etc., share the same fate, being partly
eaten into. At the risk of being ar-
rested for killing the squirrels I have
used a small target rifle morning and
night, but during my absence the dev-
astation went on steadily. Last year
they destroyed my entire corn crop.
Traps do no good; can't use poison,
too dangerous. But I have solved the
difficulty; it's easy.
Shake cayenne pepper over the va-
rious vegetables which are being
ruined, and observe results.
iv^iOOglc
Homemade Electric Stove
By J. F. THOU,
The construction of an electric stove
is very simple, and it can be made by
any home mechanic having a vise and
hand drill. The body is made of sheet
or galvanized iron, cut out and drilled
as shown in Fig. 1.
Each long projection represents a
leg, which is bent at right angles on the
center line by placing the metal in the
jaws of a vise and hammering the
metal over flat. If just the rim is
gripped in the vise, it will give a round-
ing form to the lower part of the legs.
The small projections are bent in to
form a support for the bottom.
The bottom consists of a square
piece of metal, as shown in Fig. 2.
Holes are drilled near the edges for
stove bolts to fasten it to the bottom
projections. Two of the larger holes
are used for the ends of the coiled rod
and the other two for the heating-wire
terminals. The latter holes should be
well insulated with porcelain or mica.
The top consists of a square piece of
metal drilled as shown in Fig. 3. Four
small ears are turned down to hold the
top in place.
One end of the coiled rod is shown
in Fig. 4. This illustrates how two
pins are inserted in holes, drilled at
right angles, to hold the coil on the
bottom plate. The coiled rod is ^ in.
can be purchased from electrical stores.
Stovepipe wire will answer the pur-
pose when regular heating wire cannot
be obtained. The wire is coiled around
the asbestos-covered rod, so that no
coil will be in contact with another
coil. If, by trial, the coil does not heat
sufficiently, cut some of it off and try
again. About 9^^ ft. of No. 26 gauge
heating wire will be about right. The
connection to an electric-lamp socket
is made with ordinary flexible cord, to
which is attached a screw plug for mak-
ing connections.
Glass-Cleaning Solution
Glass tumblers, tubing and fancy
bottles are hard to clean by washing
them in the ordinary way, as the parts
are hard to reach with the fingers or a
brush. The following solution makes
an excellent cleaner that will remove
dirt and grease from crevices and sharp
corners. To 9 parts of water add 1
part of strong sulphuric acid. The
acid should be added to the water
slowly and not the water to the acid.
Add as much bichromate of potash as
the solution will dissolve. More
bichromate of potash should be added
as the precipitate is used in cleaning.
The chemicals can be purchased
" .
]\
oOgOp
OffWiO'
1 ai- — J
in diameter and 37 in. long. The rod is cheaply from a local drug store, and
wrapped with sheet asbestos, cut in made up and kept in large bottles.
^^-in. strips. The solution can be used over and
The length of the heating wire must over again. — Contributed by L,oren
be determined by a test. This wire Ward, Des Moines, Iowa.
ioogic
Automatic-Closing Kennel Door
When the neighborhood cats are re-
tired for the night and there is noth-
ing more to chase, my fox terrier
seems to realize that his usefulness
nacnin of Clo«in( Door
for the day is over and begs to be put
in his kennel that he may not bark
at the moon as some dogs are apt to
do. This necessitates my putting him
out at a time when it may not be
convenient. Frequently in stormy
weather this is a disagreeable duty
and I found a way to obviate it by
making a trapdoor device for his ken-
nel as shown in the sketch whereby
he may lock himself in when he
crosses the threshold.
The outer half A of the hinged trap-
door is made heavier than the inner
half B by a cleat, C, and a strip, D, to
cause the door to swing shut. The
tripper stick E is set between cleats
C and F to hold the door open. When
the dog steps on the inner half of the
trapdoor B, it falls to stop G, releasing
tripper stick E (which is heavier on
the top end H) to cause it to fall clear
of the path of the trapdoor. The door
then swings shut in the direction of the
arrow, the latch I engaging a slot in
the door as it closes, and the dog has
locked himself in for the night. The
latch I is made of an old-fashioned
gate latch which is mortised in the
bottom joist of the kennel. When re-
leasing the dog in the morning the
door is set for the evening.: — Contrib-
uted by Victor Labadie, Dallas, Texas.
Polishing Cloths for Silver
Mix 2 lb. of whiting and Yz oz. of
oleic acid with 1 gal. of gasoline. Stir
and mix thoroughly. Soak pieces of
gray outing flannel of the desired size
— 15 by 12 in, is a good size — in this
compound. Wring the surplus fluid
out and hang them up to dry, being
careful to keep them away from the
fire or an open flame. These cloths
will speedily clean silver or plated ware
and will not soil the tiands.
In cleaning silver, it is best to wash
it first in hot water and white soap
and then use the polishing cloths. The
cloths can be used until they are worn
to shreds. Do not wash them. Knives,
forks, spoons and other small pieces of
silver will keep bright and free from
tarnish if they are slipped into cases
made from the gray outing flannel and
treated with the compound.
Separate bags for such pieces as the
teapot, coffee pot, hot-water pot, cake
basket and other large pieces of silver-
ware will keep them bright and shin-
ing. — Contributed by Katharine D.
Morse, Syracuse.. N, Y.
A Book-Holder
Books having a flexible back are dif-
ficult to hold in an upright position
when copying from them, A make-
shift combination of paperweights and
other books is often used, but with
unsatisfactory results.
The book-holder shown in the sketch
will hold such books securely, allow
l:v v^<v.^v_'Vl^_
the pages to be turned easily and con-
ceal the smallest possible portion of
each page.
The holder can be cut out of a box
corner and fitted with two screweyes,
which have the part shown by the
dotted lines at A (Fig. 1) removed.
The length of the back board deter-
tntnes the slope for the book rest. —
Contributed by James M. Kane,
Doylestown, Pa.
Clamping a Cork
It is aggravating to continually
break the cork of the stock mucilage
bottle because of
its sticking to the
neck of the bottle
after a supply has
been poured out. If
a stove bolt is in-
serted lengthwise
through the cork
with a washer on
each end and the
nut screwed u p
tightly, as shown in
the sketch, the cork
may be made to last longer than the
supply of mucilage and can be placed
in a new bottle and used over and over
again.
Withdrawing Paper from under an
Inverted Bottle
Invert a bottle on a piece of paper
near the edge of a table top and ask
any one to remove the paper without
overturning the bottle. They will at
once jerk the paper with the result
that the bottle will turn over. To re-
move the paper just strike the table
top with your right fist while pulling
the paper slowly with your left hand.
As you strike the table the bottle will
jump and release the paper. — Contri-
buted by Maurice Baudier, New Or-
leans, La.
CA bone collar button makes a good
substitute for a plug in repairing a
puncture in a single-tube bicycle tire.
Broom Holder Made of a Hinge
The broom holder shown in the
sketch is made 'of an ordinary hinge
with one wing
screwed to the
wall. The loose
wing has a large
hole drilled
in it to receive
the handle
of the broom.
The manner of
holding the
broom is plainly
shown in the
sketch. — Con-
tributed by Theodore L. Fisher,
Waverly. III.
Making Proofs before the Negative
Dries
A correspondent of Camera Craft
makes proofs from his developed, but
unfixed, negatives, by squeezing a
sheet of wet bromide paper into con-
tact with the wet film and giving an
exposure several times longer than
\yould be required under ordinary con-
ditions, using the paper dry. If the
developer is well rinsed out of the film,
the exposure to artificial light neces-
sary to make a print will have no in-
jurious effect upon the negative, which
is, of course, later fixed and washed as
usual.
Flower-Pot Stand
A very useful stand for flower pots
can be made of a piece of board sup-
ported by four
clothes hooks.
The top may be
of any size suit-
able for the
flowerpot. The
nooks which
serve as legs
are fastened to
the under side of the board in the same
manner asiastening the hook to a wall.
— Contributed by Oliver S. Sprout,
Harrisburg, Pa.
ioog Ic
A Line Harmonograph
As an apparatus capable of exciting
interest, probably nothing so easily
constructed surpasses the harmono-
graph. Your
I attention
'* will be com-
pletely ab-
sorbed in the
ever chang-
ing, graceful
sweep of the
long pendulum, the gyrations of which
are faithfully recorded in the resulting
harmonogram.
A careless impetus given to the
pendulum may result in a very beau-
tiful harmonogram, but you may try
innumerable times to duplicate this
chance record without success. No
two harmonograms are exactly alike.
The harmonograph, while its pendu-
lum swings in accordance with well
known natural laws, is exceedingly
erratic when it comes to obeying any
preconceived calculations of its oper-
ator. In this uncertainty lies the
charm. If time hangs heavily or a
person is slightly nervous or uneasy,
a harmonograph is a good prescrip-
tion.
The prime
essential in a
well work-
ing harmon-
ograph is a
properly
construct e d
V n i V e r sal
joint. Where
such a joint
is made with
pivots for
its bearings,
one pair of
pivots are
very liable
to have more
friction than
the other,
which re-
tards the
PW- 1 move ment
and causes the harmonograph to un-
dergo a continuous change of axis. To
obviate this difficulty, the joint should
be made similar to those used on scales.
The general appearance of such a joint
is shown in the first illustration. Fig. 1.
Stirrups A and B are made of % by
%-in. metal. Holes are drilled in each
end of these stirrups and filed out as
shown at C. The two holes shown in
the center of the stirrup A are drilled
to fasten the apparatus to the ceiling.
Two corresponding holes are drilled in
B to fasten the long pendulum F to the
joint. The cross of the joint D has the
ends shaped as shown at E. The
rounded shoulder on E is to prevent
the cross from becoming displaced by
a jar or accident. The ends of the
cross are inserted through the holes C
of the stirrups, then slipped back so the
knife edges engage in the V-shaped
holes of the stirrups. The cross must
be so made that the knife edges will
be in the same plane. This can be de-
termined by placing two of the knife
edges on the jaws of a vise and then
laying two rules across the other two
edges. The rules should just touch the
jaws of the vise and the two knife
edges of the cross. This makes a uni-
versal joint almost free from friction
and, what is most important, prevents
the pendulum from twisting on its
own axis.
The pendulum F should be made of
ash or oak, 1% by 2 in., with a length
depending on the height of the ceiling.
A length of 7 ft. is about right for a
10-ft. ceiling.
A small table or platform, K, as
shown in the lower part of Fig. 1, is
fastened to the lower end of the pen-
dulum as a support for the cards on
which harmonograms are made. A
weight, G, of about 30 or 40 lb. — a box
filled with small weights will do — is
attached to the pendulum just above
the table. Another weight of about
10 lb. is attached as shown at H. A
pedestal, J, provides a means of sup-
port for the stylus. The stylus arm
l:v v^<v.^v_'Vl'
■a"
should have pin-point bearings, to
prevent any side motion.
The length of the short pendulum
H, which can be regulated, as shown
in Fig. 1, should bear
a certain and exactly
fixed relation Xo the
length of the main
pendulum, for the
swinging times of pen-
dulums are inversely
proportionate to their
lengths, and unless the
shorter pendulum is,
for instance, exactly
one-third, one-fourth,
one-fifth, etc., as long
as the other, that is,
makes respectively 3,
4 or 5 swings to one
swing of the long pen-
dulum, they will not
harmonize and a per-
fect harmonogram is
not obtained.
A good stylus to contain the ink is
easily made from a glass tube Vi in.
in diameter. Heat the tube in an al-
cohol or Bunsen flame and then, by
drawing the two portions apart and
twisting at the same time, the tube
may be drawn to a sharp point. An
opening of any desired size is made in
the point by rubbing it on a whetstone.
Owing to the fact that the style of
universal joint described has so little
friction, the stylus point must be very
Ll&c* Hade with tha Hamuiiiafrwh
fine, or the lines will overlap and blur.
A small weight, such as a shoe but-
toner, placed on the arm near the
stylus will cause enough friction to
make the pendulum "die" faster and
thus remedy the trouble. — Contributed
by Wm. R. Ingham, Rosemont,
Arizona.
Cutting Circular Holes in Thin
Sheet Metal
In arts and crafts work, occasion
often arises to cut a perfectly circular
hole in sheet copper or brass. To saw
and file it out takes time and skill.
Holes up to 3 in. in diameter can be cut
quickly and accurately with an ordi-
nary expansive bit.
Fasten the sheet metal to a block of
wood with handscrews or a vise. Punch
a hole, with a nail set or punch, in the
center of the circle to be cut, large
enough to receive the spur of the ex-
pansive bit. A few turns of the brace
will cut out the circle and leave a
smooth edge. — Contributed by James T.
Gaffney, Chicago.
Key Card for Writing Unreadable
Post Cards
A key card for use in correspondence
on postals that makes the matter un-
readable unless the recipient has a
duplicate key card is made as follows:
Rule two cards the size of postal, one
for the sender and one for the receiver,
dividing them into quarters. These
quarters are subsequently divided into
any convenient number of rectangular
parts — six in this case.
These parts are numbered from one
to six in each quarter beginning at the
outside corners and following in the
same order in each quarter. Cut out
one rectangle of each number with a
sharp knite, distributing them over the
hyGOOgIC
whole card. Then put a prominent is worked by a string passing through
figure 1 at the top of one side, 2 at the the top of the bench and should be
bottom and 3 and 4 on the other side, weighted on the other end to facilitate
The numbering and the cutouts are the automatic downward movement.
___ 4 4 [
I _ 3 3
6_ 6 3
3 6 3
i 5_ I
I 4. J
NCAD 1
ITOPWAR
rrn- \
> vounxif wnrtcN the
D » POSTED. POWW
KS' OH VCU IN
SQENCC HAeAZme TIK
E5S TO AND WBOSB*
WMHa KEEP OF
«««™l
1 »
" 1 1
™, 1
ThcKcr Cara
shown in Fig. 1. The two key cards
are made alike.
The key card is used by placing it
over a postal with the figure 1 at the
top and writing in the spaces from left
to right as usual. Fig. 3, then put 3 at
the top, Fig, 4, and proceed as before,
then 3 as in Fig. 5, and 4 as in Fig. 6.
The result will be a jumble of words
as shown in Fig. 2, which cannot be
read to make any sense except by use
of a key card. — Contributed by W, J.
" Morey, Chicago.
Homemade Carpenter's Vise
The sketch shows an easily made,
quick- working wood vise that has
proved very satisfactory. The usual
screw is replaced by an open bar held
on one end by a wedge-shaped block.
The capacity of the vise, of course, de-
pends on the size and shape of the
wedge-shaped block. — Contributed by
J. H. Cniger, Cape May City, N. J.
Toning Blue on Bromide and
Platinum
After some experimenting to secure
a blue tone on bromide prints, a cor-
respondent of the Photographic Times
produced a very pleasing bluish green
tint by immersing the prints in a solu-
tion composed of 30 gr. of ferricyanide
of potash, 30 gr. citrate of iron and
ammonia, ^ oz. acetic acid and 4 oz.
of water. After securing the tint de-
sired, remove the prints, rinse them in
clean water for a few minutes, and
then place them in a dilute solution
of hydrochloric acid. Wash the prints
thoroughly and hang them up with
clips to dry.
Cutting I^oaf Bread
When cutting a loaf of bread do not
slice it from the outer crusted end.
Cut through the center, then cut slices
from the center toward the ends. The
two cut surfaces can be placed to-
gether, thus excluding the air and
keeping the bread fresh as long as
and the excess taken up on the other there is any left to slice. — Contributed
end by an eccentric Sever. The wedge by L. Alberta Norrell, Augusta, Ga.
c Bnttcdr ef Wood
l:v v^<v.^v_'Vl'
■a"
How to Make an Electric Toaster
The electric toaster shown in the
sketch is not hard to make. The frame-
work comprising the base and the two
uprights may be made either of hard-
wood or asbestos board, says Popular
Electricity. If constructed of the
former, the portion of the base under
the coil, and the inside surfaces of the
two uprights should be covered with
a Vs-ia. sheet of well made asbestos
paper, or thin asbestos board may be
substituted for this lining. Asbestos
board is to be preferred, and this ma-
terial in almost any degree of hard-
ness may be purchased. It can be
worked into shape and will hold wood-
screws. The detail drawing gives all
dimensions necessary to shape the
wood or asbestos board.
After preparing the base and up-
rights, drill 15 holes, 14 »"■ deep, into
the inside face of each upright to sup-
port the No. 6 gauge wires shown. The
wires at the top and bottom for hold-
ing the resistance wire are covered
with asbestos paper and the holes for
these wires are % in. from the top and
bottom, respectively, of the uprights.
The wires that form the cage about the
heater coil and are used for a support
for the toast are 15 pieces of No. 6
gauge iron wire each 8 in, long. The
screws that hold the uprights in posi-
tion should have the heads counter-
sunk on the under side of the base.
The binding-posts should now be set
in position and their protecting cover-
D«u)l of Tm*tn
ing containing the reinforced cord left
until the other parts are finished.
To assemble, secure one upright tn
position using l^^-in. wood-screws.
Place the other upright where it be-
longs without fastening it and put tJie
stretcher wires for holding the resist-
ance wire in place. Put the asbestos
paper on these and with the assistance
of a helper begin winding on the heater
coil. Use 80 ft. of 18-per-cent No. 22
gauge German-silver wire. Wind the
successive turns of wire so they will
not touch each other and fasten at each
end with a turn or two of No. 16 gauge
copper wire. When this is complete
have the helper hold the stretcher wires
while you tip the unfastened upright
out and insert the wires of the cage,
then fasten the upright in place.
The wire from the binding-posts to
the coil may be what is known as un-
derwriters' wire or asbestos-covered
wire No. 14 gauge, which is held in
place by double-headed tacks contain-
ing an insulation at the head. These
may be procured from electrical sup-
ply houses. Connect the reinforced
cord and terminals to the binding
screws and fasten the cover in place.
This toaster will take four amperes oa
110-voIt circuit.
Cabinet for th« Amateur's Workshop
One of the most convenient adjuncts
to an amateur's workbench is a cabinet
of some sort in which to keep nails,
rivets, screws, etc., instead of leaving
them scattered all about the bench. A
very easily made cabinet for this pur-
pose is shown in the accompanying iN
lustration. The case may be made of
^-in. white pine or white wood of a
suitable size to hold the required num-
lOOglc
ber of drawers which slide on strips of
the same material, cut and dressed ^4
in. square. The drawers are made of
empty cigar boxes of uniform size,
Empty Cigar Boim Uacd far Drawsrs
which, if one is not a smoker, may be
readily obtained from any cigar dealer,
as they are usually throwh away when
empty.
Small knobs may be added if desired,
but these are not necessary, as the
spaces shown between the drawers give
ample room to grasp them with the
fingers. Labels of some kind are
needed, and one of the neatest things
for this purpose is the embossed alumi-
num label, such as is stamped by the
well known penny-in-the-slot machines
to be found in many railroad stations
and amusement places. — Contributed
by Frederick E. Ward, Ampere, N. Y.
CPhotograph prints can be kept from
curling when dry, by giving them the
same treatment as was once used on
films. Immerse for 5 minutes in a
bath made by adding V^ oz. of glycer-
ine to 16 oz. of water.
Soldering for the Amateur
Successful soldering will present no
serious difficulties to anyone who will
follow a few simple directions. Certain
metals are easier to join with solder
than others and some cannot be sol-
dered at all. Copper, brass, zinc, tin,
lead, galvanized iron, gold and silver
or any combination of these metals can
be easily soldered, while iron and alu-
minum are common metals that cannot
be soldered.
It is necessary to possess a soldering
copper, a piece of solder, tinner's acid,
sandpaper or steel wool, a small file and
a piece of sal ammoniac. If the sol-
dering copper is an old one, or has be-
come corroded, it must be ground or
filed to a point. Heat it until hot (not
red hot), melt a little solder on the sal
ammoniac, and rub the point of the
copper on it, turning the copper over
to thoroughly tin the point on each
face. This process is known as tinning
the iron and is very necessary to suc-
cessful work.
After the copper is tinned you may
place it in the fire again, being careful
about the heat, as too hot an iron will
burn off the tinning.
The parts to be soldered must be
thoroughly cleaned by sandpapering or
the use of steel wool until the metal
shows up bright. Then apply the acid
only to the parts to be soldered with a
small stiff brush or a small piece of
cloth fastened to a stick, or in a bent
piece of tin to form a swab.
Tinner's acid is made by putting as
much zinc in commercial muriatic acid
as will dissolve. This process is best
accomplished in an open earthenware
dish. After the acid has ceased to boil
and becomes cool it may be poured into
a wide-mouthed bottle which has a
good top or stopper, and labeled
"Poison."
Place the parts to be soldered in
their correct position and apply the
hot copper to the solder, then to the
joint to be soldered, following around
with the copper and applying solder as
is necessary.
In joining large pieces, it is best to
l:v v^<v.^v_'Vl^_
"stick" them together in several places
to hold the work before trying to get
all around them. A little practice will
soon teach the requisite amount of
solder and the smoothness required for
a good job.
In soldering galvanized iron, the pure
muriatic acid should be used, particu-
larly so when the iron has once been
used. — C. G. S., Eureka Springs, Ark.
Washboard Holder
When using a washboard it will con-
tinually slip down in the tub. This is
considerable annoyance, especially if a
large tub is used. The washboard can
be kept in place with small metal
hooks, as shown in the sketch. Two
of these are fastened to the back of
CUp on th« W**hb«iTd
the washboard in the right place to
keep it at the proper slant. — Contrib-
uted by W. A, Jaquythe, Richmond,
California.
A Mission Bracket Shelf
The shelf consists of six pieces of
wood A, B, C, D, E and F. The ma-
terial can be of any
wood. I have one
made of mahogany
finished in natural
color, and one made of
poplar finished black.
The dimensions given
in the detail drawings
are sufficient for any-
one to make this
bracket. The amount w,t.t
of material required is
very small and can be
made from scrap, or
purchased from a mill
surfaced and sanded.
The parts are put
together with dowel pins. — Contributed
by A. Larson, Kenosha, Wis.
How to Make a Finger Ring
While the wearing of copper rings
for rheumatism may be a foolish notion,
yet there is a certain galvanic action
set up by the contact of the acid in the
system of the afflicted person with the
metal of the ring. Apart from this,
however, a ring may be made from any
metal, such as copper, brass and silver,
if such metals are in plate or sheet
form, by the following method:
All the tools necessary are a die and
punch which are simple to make and
will form a ring that will fit the avei^
age finger. Take a %-m. nut, B, Fig.
1, and drill out the threads. This will
leave a clear hole, % in. in diameter, or
a hole drilled the desired size in a
piece of iron plate will do as well.
Countersink the top of the hole so that
the full diameter of the countersink
will be iy4. in. This completes the die.
The punch A, is made of a piece of %-
in. round iron, slightly rounded on the
end so that it will not cut through the
metal disk. The dimensions shown in
Fig. 1 can be changed to suit the a
of the finger to be fitted.
d by Google
The metal used should be about ^
in. thick and 1^ in. in diameter. Anneal
it properly by heating and plunging in
water. Lay it on the die so that it will
fit nicely in the countersink and drive
it through the hole by striking the
punch with a hammer. Hold the
punch as nearly central as possible
when starting to drive the metal
through the hole. The disk will come
out pan shaped, C, and it is only nec-
essary to remove the bottom of the
pan to have a band which will leave a
hole % in, in diameter and 1^ in.
wide. Place the band, D, Fig. 8, on a
stick so that the edges can be filed and
rounded to shape. Finish with fine
emery cloth and polish. Brass rings
can be plated when finished. — Contrib-
uted by H. W. Hankin, Troy, N. Y.
How to Bind Magazines
A great many readers of Popular
Mechanics Magazine save their copies
and have them bound in book form and
some keep them without binding. The
bound volumes make an attractive
library and will always be valuable
works of reference along mechanical
lines. I bind my magazines at home
evenings, with good results. Six
issues make a well proportioned book,
which gives two bound volumes each
year.
The covers of the magazines are re-
moved, the wire binders pulled out
with a pair of pliers and the advertis-
ing pages removed from both sides,
after which it will be found that the
remainder is in sections, each section
containing four double leaves or six-
teen pages. These sections are each
removed in turn from the others, using
a pocket knife to separate them if they
stick, and each section is placed as they
v/tre in the magazine upon each
preceding one until all six numbers
have been prepared. If started with
the January or the July issue, the
pages will be numbered, consecutively
through the entire pages of the six
issues.
The sections are then prepared for
sewing. They are evened up on the
edges by jarring on a flat surface.
They are then placed between two
pieces of board and all clamped in a
vise. Five cuts, ^^ in. deep, are made
with a saw across the back of the
sections, as shown in Fig. 1. Heavy
plain paper is used for the flyleaves.
The paper is cut double the same as
the leaves comprising the sections.
making either one or two double sec-
tions for each side as desired.
A frame for sewing will have to be
made as shown in Fig. 2 before the
work can be continued on the book.
The frame is easily made of four pieces
of wood. The bottom piece A should
be a little larger than the book. The
two upright pieces B are nailed to the
outside edge, and a third piece, C, is
nailed across the top. Small nails are
driven part way into the base C to
correspond to the saw cuts in the sec-
tions. A piece of soft fiber string is
stretched from each nail to the cross-
piece C and tied.
Coarse white thread, size 16 or
larger, is used for the sewing material.
Start with the front of the book. Be
sure that all sections are in their right
places and that the flyleaves are pro-
vided in the front and back. Take the
sections of the flyleaves on top, which -
should be notched the same as the saw
cuts in the book sections, and place
them against the strings in the
frame. Place the left hand on the
inside of the leaves where they are
folded and start a blunt needle,
threaded double, through the notch on
the left side of the string No. 1 in
Fig. 8. Take hold of the needle with
the right hand and pass it to the left
around the string No. 1, then back
through the notch on the right side.
Fasten the thread by tying or making
a knot in the end and passing the
needle through it. After drawing the
thread tightly, pass the needle through
the notch on the left side of the string
No. a, passing it around the string and
l:v ^^^^.^V-'Xl'
^'3"
tying in the same manner as for No. and mark around each one. Spread a
1. Each section is fastened to the five thin coat of glye on the surface of
strings in the same manner, the thread each and lay them on by the marks
being carried across from each tie made. Cut a notch out of the cover-
from No. 1 to 3 then to 3 and so on ing so it wUl fold in, and, after gluing
until all strings are tied. The string
No, 5 is treated in the same manner
only that the needle is run through on
the left side of the string a second
time, leaving the needle on the out-
side in position for the next section,
which is fastened the same as the first,
the needle being passed through the
notch on the right side of the string
No. 5, and then to string No. 4, pass-
ing around on the right side and back
on the left and so on. Keep the thread
drawn up tightly all the time.
After the sewing is completed cut
the strings, allowing about 2 in. of the
ends extending on each side. The fi-
bers of these ends are separated and
combed out so that they can be glued
to the covers to serve as a hinge. A
piece of cheesecloth is cut to the size
of the back and glued to it. Ordinary
liquid glue is the best adhesive to use.
Procure heavy cardboard for the
covers and cut two pieces ^ in. longer
and just the same width as the maga-
zine pages. The covering can be of
cloth, leather or paper according to
the taste and resources of the maker.
The covering should be cut out 1 in.
larger on all edges than both covers
and space on the back. Place the
cardboard covers on the book, allow-
ing a margin of ^ in. on all edges
except the back, and measure the dis-
tance between the back edges of the
covers across the back of the book.
Place the cardboard covers on the
back of the covering the proper dis-
tance apart as measured for the back.
The Bound Book
a strip of paper to the covering be-
tween the covers to strengthen the
back, fold over the outside edges of
the covering and glue it down all
around.
Place the cover on the book in the
right position, glue the hinges fast to
the inside of the covers, then glue the
first flyleaf to the inside of the cover
on both front and back and place the
whole under a weight until dry. —
Contributed by Clyde E. Divine, Col-
lege View, Nebr.
Metal Coverings for Leather Hinges
A method of making a leather hinge
work as well as an ordinary steel butt
is to cover the wings with sheet metal.
The metal can be fastened with nails
or screws over the parts of the leather
attached to the wood. Tinplate, iron
HOD
UeUl Part* Scnwcd oa LMthcr HIdb«
hoops, zinc or thin brass cut in neat de-
signs will make a leather hinge appeai
as well as a metal hinge. — Contributed
by Tom Hutchinson, Encanto, Cal.
CA hot-water bottle held against a
porous plaster will assist in quickly
removing it from the stdn.
dbyGOOgIC
How to Make a Cheap Bracket Saw
For the frame use %-in. round iron,
bending it as shown in the diagram and
61ing a knob on each end, at opposite
sides to each other, on which to hook
the blade.
For the blade an old talking-machine
HBCkuw Prims aod Blad
spring or a clock spring will do nicely.
Heat the spring enough to take some
of the temper out of it, in order to drill
the holes in the ends, as shown, and file
in the teeth. Make the blade 12 in.
long, with 10 teeth to the inch. A and
B show how the blade fits on the frame.
— Contributed by Willard J. Hays,
Summitville, Ohio.
How to Make a Cannon
A cannon like the one in the cut may
be made from a piece of 1-in. hydraulic
pipe. A, with a steel sleeve, B, and a
long thread plug, C. Be sure to get
hydraulic pipe, or double extra heavy,
as it is sometimes called, as common
gas pipe is entirely too light for this
purpose. Don't have the pipe too long
or the cannon will not make as much
noise. Seven or eight inches is about
the right length for a l-in. bore. Screw
the plug and pipe up tightly and then
drill a I'l-in. fuse hole at D.
If desired the cannon may be
mounted on a block of wood, F, by
means of a U-bolt or large staple, E.
— Contributed by Carson Birkhead,
Moorhead, Miss.
Controller for a Small Motor
An easy way of making a controlling
and reversing device for small motors
is as follows :
Cut a piece of wood (A) about 6 in.
by 4^ in., and 14 '«- thick, and another
Eiece (B) G in. by 1 in., and 14 in. thick,
►rive a nail through this near the cen-
ter for a pivot (C). To the under side
of one end nail a copper brush (D) to
extend out about an inch. On the up-
per side, at the same end, nail another
brush (E) so that it projects at both
sides and is bent down to the level of
the end brush. Then on the board put
a semi-circle of brass-headed tacks as
shown at F, leaving a small space at
the middle and placing five tacks on
either side, so that the end brush will
come in contact with each one. Con-
nect these tacks on the under side of
the board with coils of German-silver
wire, using about 8 in. of wire to each
coil. Fix these by soldering or bend-
ing over the ends of the tacks. Then
nail two strips of copper (G) in such
position that the side brush will re-
main on the one as long as the end
brush remains on the tacks on that side.
Put sides about 1% in. high around
this apparatus, raising the board a little
from the bottom to allow room for the
coil. A lid may be added if desired.
Connect up as shown. — Contributed by
Chas. H. Boyd, Philadelphia.
d by Google
How to Make a Simple Water Rheostat
mroR
5 POINT SWITCH
WIRES A TO BE RUBBER CCNERED
Wlrinf Plu for Water RbeoAit
The materials necessary are: One
B-point wood-base switch, 4 jars, some
sheet copper or brass for plates, about
b ft, of rubber-covered wire, and some
No. 18 gauge wire for the wiring.
The size of the jars depends on the
voltage. If you are going to use a
current of low tension, as from bat-
teries, the jars need not be very large,
but if you intend to use the electric-
light current of 110 voltage it will be
necessary to use large jars or wooden
boxes made watertight, which will hold
about 6 or 7 gal. Each jar to be filled
with 20 parts water to 1 part sulphuric
acid. Jars are set in a row in some
convenient place out of the way.
Next cut out eight copper or brass
disks, two for each jar. Their size
also depends on the voltage. The
disks that are placed in the lower part
of the jars are connected with a rubber-
covered wire extending a little above
the top of the jar.
To wire the apparatus, refer to the
sketch and you will see that jar No. 1
is connected to point No. 1 on switch;
No. 2, on No. 2, and so on until all is
complete and we have one remaining
point on switch. Above the jars place
a wire to suspend the other or top disks
in the solution. This wire is also con-
nected to one terminal on the motor
and to remaining point on switch. The
arm of the switch is connected to one
terminal of battery, or source of cur-
rent, and the other terminal connected
direct to remaining terminal of motor.
Put arm of switch on point No, 1
and lower one of the top disks in jar
No. 1 and make contact with wire
above jars. The current then will flow
through the motor. The speed for
each point can be determined by low-
ering top disks in jars. The top disk
in jar No. 3 is lower down than in No.
1 and so on for No. 3 and No, 4. The
connection between point No. 5 on
switch, direct to wire across jars, gives
full current and full speed.-
joglc
How to Build a Toboggan Sled
By A. BOETTE
The first object of the builder of a
sled should be to have a "winner,"
both in speed and appearance. The
accompanying instructions for build-
ing a sled are designed to produce
these results.
The sled completed should be 15 ft.
2 in. long by 22 in. wide, with the cush-
ion about 15 in. above the ground.
For the baseboard select .a pine board
15 ft. long, 11 in. wide and 3 in. thick,
and plane it on all edges. Fit up the
baseboard with ten oak foot-rests, 22
in. long, 3 in. wide and % in. thick.
Fasten them on the under side of the
baseboard at right angles to its length
and 16 in. apart, beginning at the rear.
At the front 24 or 26 in. will be left
without cross bars for fitting on the
auto front. On the upper side of the
cross bars at their ends on each side
screw a piece of oak 1 in. square by 14
ft. long. On the upper side of the
baseboard at its edge on each side
screw an oak strip 3 m. wide by % in.
thick and the length of the sled from
the back to the auto front. These are
to keep the cushion from falling out.
See Fig. 1. For the back of the sled
use the upper part of a child's high
chair, taking out the spindles and re-
setting them in the rear end of the
baseboard. Cover up the outside of
the spindles with a piece of galvanized
iron.
The construction of the runners is
shown by Figs. 2 and 3. The stock
required for them is oak, two pieces
30 in. by 5 in. by 1^4 iu-i two pieces 34
in. by 5 in. by 114 '"-i two pieces 14 in.
by 6 in. by 2 in., and four pieces 14 in.
by 2 in. by 1 in. They should be put
together with large screws about 3 in.
long. Use no nails, as they are not sub-
stantial enough. In proportioning them
the points A, B and C, Fig. 2, are im-
portant. For the front runners these
measurements are; A, 30 in.; B, 4 in.;
C, 15^^ in., and for the rear runners : A,
34 in. ; B, 7 in. ; C, 16Vi in. The screw-
eyes indicated must be placed in a
straight line and the holes for them
carefully centered. A variation of -^
in. one way or another would cause a
great deal of trouble. For the steel
runners use %-in. cold-rolled steel flat-
tened at the ends for screw holes. Use
no screws on the running surface, how-
ever, as they "snatch" the ice.
The mechanism of the front steering'
gear is shown at Fig. 3 A %-in. steel
rod makes a good steering rod. Flat-
ten the steering rod at one end and
sink it into the wood. Hold it in
place by means of an iron plate drilled
to receive the rod and screwed to block
X. An iron washer, Z, is used to re-
duce friction ; bevel block K to give
a rocker motion. Equip block X with
screweyes, making them clear those
in the front runner, and bolt through.
For the rear runner put a block with
screweyes on the baseboard and run
a bolt through.
Construct the auto front (Fig. 4)
of %-in. oak boards. The illustration
shows how to shape it. Bevel it to-
ward all sides and keep the edges
sharp, as sharp edges are best suited
for the brass trimmings which are to
be added. When the auto front is in
place enamel the sled either a dark
maroon or a creamy white. First
sandpaper all the wood, then apply a
coat of thin enamel. Let stand for
three days and apply another coat.
Three coats of enamel and one of thin
varnish will make a fine-looking sled.
For the brass trimmings use No, 27 B.
& S, sheet brass 1 in. wide on all the
front edges and pieces 3 in. square on
the cross bars to rest the feet against.
On the door of the auto front put the
monogram of the owner or owners of
the sled, cutting it out of sheet brass.
For the steering-wheel procure an
old freight-car "brake" wheel, brass-
plated. Fasten a horn, such as used
on automobiles, to the wheel.
Make the cushion of leather and stuff
it with hair. The best way is to get
some strong, cheap material, such as
burlap, sew up one end and make in
l:v v^<v.^v_'Vl^_
Conatmctinc m "Winner" Tobocfmn Slad
the fonii of an oblong bag. Stuff this
as tightly as possible with hair. Then
get some upholstery buttons, fasten a
cord through the loop, bring the cord
through to the underside of the cush-
ion, and fasten the button by slipping
a nail through the knot. Then put a
leather covering over the burlap, sew-
ing it to the burlap on the under side.
Make the cushion for the back in the
same way. On top of the cushion sup-
ports run a brass tube to serve the
double purpose of holding the cushion
down and affording something to hold
on to.
If desired, bicycle lamps may be fas-
tened to the front end, to improve the
appearance, and it is well to have a
light of some kind at the back to avoid
the danger of rear-end collisions.
The door of the auto front should be
hinged and provided with a lock so
that skates, parcels, overshoes, lunch,
etc., mav be stowed within. A silk
pennant with a monogram adds to the
appearance.
If desired, a brake may be added to
the sled. This can be a wrought-iroo
lever IVz in. by V2 in, by 30 in. long,
so pivoted that moving the handle will
cause the end to scrape the ice. This
sled can be made without lamps and
bom at a cost of about $15, or with
these for $25, and the pleasure derived
from it well repays the builder. If
the expense is greater than one can af-
ford, a number of boys may share in
the ownership.
Biuning InscriptioiiB on Trees
Scrape off the bark just enough to
come to the first light under coating,
which is somewhat moist. With a
lead pencil make an outline of the in-
scription to be burnt on the tree and
bring the rays of a large magnifying
glass not quite to a fine focus on the
same. The tree will be burnt along the
ly v^<v.^v_'Vl^_
pencil marks, and if the glass is not
held in one spot too long, the inscrip-
tion will be burnt in as evenly as if it
had been written. — Contributed by
Stewart H. Lelaad, Lexington, 111.
How to Make Small Gearwheels
Without a Lathe
To make small models sundry small
gears and racks are required, either
cut for the place or by using the parts
from an old clock. With no other tools
than a hacksaw, some files, a compass.
Uakloc Uodel Wticslm
and with the exercise of a little pa-
tience and moderate skill, very good
teeth may be cut on blank wheels.
First take the case of a small gear-
wheel, say 1 in, outside diameter and
•fg in. thick, with twenty-four teeth.
Draw a circle on paper, the same di-
ameter as the wheel. Divide the cir-
cumference into the number of parts
desired, by drawing diameters, Fig, 1.
The distance AB will be approxi-
mately the pitch. Now describe a
smaller circle for the base of the teeth
and halfway between these circles may
be taken as the pitch circle.
Now describe a circle the same size
as the largest circle on a piece of I's-in.
sheet metal, and having cut it out and
filed it up to this circle, fasten the
marked-out paper circle accurately over
it with glue. Saw-cuts can now be
made down the diameters to the
smaller circle with the aid of a saw
guide. Fig. 2, made from ^-in. mild
steel or iron. This guide should have
a beveled edge, E, from F to G, to lay
along the line on which the saw-cut
is to be made. The straight-edge, CD,
should be set back one-half the
thickness of the saw-blades, so that the
center of the blade, when flat against
it, will be over the line FG. A small
clearance space, FC, must be made to
allow the teeth of the saw to pass.
The guide should then be placed
along one of the diameters and held in
position until gripped in the vise, Fig.
3. The first tooth may now be cut,
care being taken to keep the blade of
the saw flat up to the guiding edge.
The Model Engineer, London, says if
this is done and the saw-guide well
made, the cut will be central on the
line, and if the marking-out is cor-
rect the teeth will be quite uniform all
the way round. A small ward file will
be needed to finish oflt the teeth to their
proper shape and thickness.
In making a worm wheel the cuts
must he taken in a sloping direction,
the slope and pitch depending on the
slope and pitch of the worm thread,
which, though more difficult, may also
be cut with a hacksaw and file,
A bevel wheel should be cut in the
same manner as the spur wheel, but the
cut should be deeper on the side which
has the larger diameter. To cut a
rack the pitch should be marked along
the side, and the guide and saw used
as before (Fig. 4).
How u> Make Four Pictures on One
Plate
Secure two extra slides for the plate-
holders and cut one comer out on one
Poor PtutiM on One Plate
of them, as shown in Fig. 1, Make a
hole in the other, as shown in Fig. Z.
With a lead pencil draw on the ground
ly v^<v.^v_'Vl^_
glass one line vertical and one hori-
zontal, each in the center. This will
divide the ground glass into four equal
parts.
Focus the camera in the usual man-
ner, but get the picture desired to till
only one of the parts on the ground
glass. Place the plate-holder in posi-
tion and draw the regular slide; sub-
stitute one of the slides prepared and
expose in the usual way.
If a small picture is to be made in
the lower left-hand corner of the plate,
place the prepared slide with the cor-
ner cut, as shown in Fig. 1. The slide
may be turned over for the upper left-
hand corner and then changed for slide
shown in Fig. 2 for the upper and lower
right-hand comers.
Electric Blue-Light Experiment
Take a jump-spark coil and connect it
up with a battery and start the vibra-
tor. Then take
one outlet wire, R,
and connect to
one side of a 2>cp.
electric lamp, and
the other outlet
wire, B, hold in
one hand, and
press all fingers of the other hand on
globe at point A. A bright, blue light
will come from the wires in the lamp
to the suriace of the globe where the
fingers touch. No shock will be per-
ceptible.
Interesting Electrical Experiment
The materials necessary for perform-
ing this experiment are : Telephone re-
ceiver, transmitter, some wire and
some carbons, either the pencils for arc
lamps, or ones taken from old dry bat-
teries will do.
Run a line from the inside of the
house to the inside of some other build-
ing and fasten it to one terminal of
the receiver. To the other terminal
fasten another piece of wire and ground
it on the water faucet in the house. If
there is no faucet in the house, ground
it with a large D<ece oE zinc.
' — II
Fasten the other end to one terminal
of the transmitter and from the other
terminal of the same run a wire into
the ground. The ground here should
consist either of a large piece of carbon,
A Uaiqua Battery
or several pieces bound tightly to-
gether.
If a person speak into the trans-
mitter, one at the receiver can hear
what is said, even though there are no
batteries in the circuit. It is a well-
known fact that two telephone re-
ceivers connected up in this way will
transmit words between two persons,
for the voice vibrating the diaphragm
causes an inductive current to flow and
the other receiver copies these vibra-
tions. But in this experiment, a trans-
mitter which induces no current Is
used. Do the carbon and the zinc
and the moist earth form a battery? —
Contributed by Wm. J. Slattery, Ems-
worth, Pa.
A Cheap Fire Alarm
An electrical device for the barn that
will give an alarm in case of fire is
shown in the accompanying diagram.
A is a wooden block, which is fastened
under the loft at a gable end of the
barn ; B is an iron weight attached to
the string C, and this string passes up
through the barn to the roof, then
over a hook or pulley and across the
barn, under the gable, and is fastened to
the opposite end of the barn.
D D are binding posts for electric
wires. They have screw ends, as
shown, by which means they are fas-
tened to the wooden block A. They
also hold the brass piece E and the
iv^ioOglc
strip of spring brass F in place against
the wooden block. G is a leather strap
fastened to the weight B and the spring
F connected to the latter by a small
sink bolt.
Blwltlc FLn Alai
At the house an electric bell is placed
wherever convenient. Several battery-
cells, of course, are also needed. Dry
batteries are most convenient. The
battery cells and bell are connected
in the usual manner, and one wire from
the bell and one from the battery are
strung to the barn and connected to the
binding posts D D.
If a fire occurs in the hay-mow the
blaze will generally shoot toward the
gable soon after it starts, and will then
burn the string C, which allows the
weight B to fall and pull the brass
spring against the iron piece E, which
closes the circuit and rings the bell in
the house.
If desired, the string may be
stretched back and forth under the roof
several times or drawn through any
place that is in danger of fire. — Contrib-
uted by Geo. B. Wrenn, Ashland, Ohio-
How to Make a Small Electric
Furnace
Take a block of wood and shape into
a core. One like a loaf of bread, and
about that size, serves admirably.
Wrap a layer of asbestos around it and
cover this with a thin layer of plaster-
of-paris. When the plaster is nearly
dry wind a coil of No. 36 wire around
it, taking care that the wire does not
touch itself anywhere. Put another
course of plaster-of-paris on this, and
again wind the wire around it. Con-
tinue the process of alternate layers of
plaster and wire until 500 ft. or more
of the latter has been used, leaving
about 10 in. at each end for terminals.
Then set the whole core away to dry.
For a base use a pine board 10 in.
by 12 in, by 1 in. Bore four holes at
one end for binding-posts, as indicated
by E E. Connect the holes in pairs by
ordinary house fuse wire. At one side
secure two receptacles, B B, and one
single post switch, C. Place another
switch at I and another binding-post
at F. The oven is now ready to be
connected.
Withdraw the wooden core from the
coils of wire and secure the latter by
bands of tin to the board. Connect
the ends of the wire to binding-posts
E and F, as shown. From the other
set of binding-posts, E, run a No. 12
or No. Hwire, connecting lamp recep-
tacles, B B, and switch, C, in parallel.
Connect these three to switch, D, in se-
ries with binding-post, F, the terminal
of the coil. Place 16-cp. lights in the
receptacles and connect the fuses with
a 110-volt lighting circuit. The appa-
ratus is now ready for operation. Turn
on switch, D, and the lamps, while C
is open. The coil will commence to
become warm, soon drying out the
plaster-of-paris. To obtain more heat
Electric Furue*
open one lamp, and to obtain still more
open the other and close switch C. —
Contributed by Eugene Tuttles, Jr.,
Newark, Ohio,
l:v v^<v.^v_'viv_
How to Make an Ammeter
Every amateur mechanic who per-
forms electrical experiments will find
use for an ammeter, and for the bene-
fit of those who wish to construct such
an instrument the following descrip-
tion is given : The operative principle
ness of the instrument depends on
the ease with which this axle turns.
After assembling the core as shown
in Fig. i, it should be filed a little at
one end until it assumes the position
indicated. The pointer or hand, Fig.
5, is made of wire, aluminum being
of this instrument is the same as that
of a galvanometer, except that its
working position is not confined to the
magnetic meridian. This is accom-
plished by making the needle revolve
in a vertical instead of a horizontal
plane. The only adjustment neces-
sary is that of leveling, which is ac-
complished by turning the thumb-
screw shown at A, Fig. 1, until the
hand points to zero on the scale.
First make a support. Fig. S, by
bending a piece of sheet brass to the
shape indicated and tappin? for the
screws CC. These should nave hol-
low ends, as shown, for the purpose of
receiving the pivoted axle which sup-
ports the hand. The core, Fig. 3, is
made of iron. It is 1 in. long, ^ in.
wide and Vs in. thick. At a point a
little above the center, drill a hole as
shown at H, and through this hole
drive a piece of knitting-needle about
Mt in. long, or long enough to reach
between the two screws shown in Fig.
2. The ends of this small axle should
be ground pointed and should turn
easily in the cavities, as the sensitive-
preferable for this purpose, although
copper or steel will do. Make the wire
4^ in. long and make a loop, D, ^
in. from the lower end. Solder to the
short end a piece of brass, E, of such
weight that it will exactly balance the
weight of the hand. This is slipped
on the pivot, and the whole thing is
again placed in position in the support.
If the pointer is correctly balanced it
should take the position shown in Fig.
1, but if it is not exactly right a little
filing will bring it near enough so that
it may be corrected by the adjusting-
screw.
Next make a brass frame as shown
in Fig. 6. This may be made of wood,
although brass is better, as the eddy
currents set up in a conductor sur-
rounding a magnet tend to stop oscil-
lation of the magnet. (The core is
magnetized when a current flows
through the instrument.) The brass
frame is wound with magnet wire, the
size depending on the number of am-
peres to be measured. Mine is wound
with two layers of No. 14 wire, 10
turns to each layer, and is about right
lyy ^OO^
.glc
' for ordinary experimental purposes.
The ends of the wire are fastened to
the binding posts B and C, Fig. 1.
A wooden box, D, is then made and
provided with a glass front A piece
of paper is pasted on a piece of wood,
which is then fastened in the box in
such a position that the hand or pointer
will lie close to the paper scale.
The box is 514 in. high, 4 in. wide and
1% in. deep, inside measurements.
After everything is assembled put a
drop of solder on the loop at D, Fig. 5,
to prevent it turning on the axle.
To calibrate the instrument connect
as shown in Fig. 1, where A is the
homemade ammeter ; B, a standard
ammeter; C, a variable resistance, and
D, a battery, consisting of three or
more cells connected in multiple.
Throw in enough resistance to make
the standard instrument read 1 ohm
ant", then put a mark on the paper scale
of the instrument to be calibrated.
Continue in this way with 3 amperes,
3 amperes, 4 amperes, etc., until the
scale is full. To make a voltmeter
out of this instrument, wind with
plenty of No. 36 magnet wire instead
of No. 14, or if it is desired to make
an instrument for measuring both
volts and amperes, use both windings
and connect to two pairs of binding
posts. — Contributed by J. E. Dussault,
Montreal.
How to Make a Three- Way Cock for
SmaU Model-Work
In making models of machines it is
often necessary to contrive some meth-
od for a 3- or 4-
way valve or
cock. To make
one, secure a pet
cock and drill
and tap hole
through, as shown
In the cut. If for
3-way, drill in
only to the open-
ing already
through, but if for a 4-way, drill
through) the entire case and valve. Be
sure to have valve 6 turned so as to
drill at right angles to the opening
through it After drilling, remove the
valve, take off the burr with a piece
of emery paper and replace ready for
work.
Easy Experimenta with Electric-Light
Circuit
An electric -light circuit will be found
much less expensive than batteries for
performing electrical experiments. The
sketch shows how a small arc light and
motor may be connected to the light
socket, A. The light is removed and
a plug with wire connections is put in
its place. One wire runs to the switch,
B, and the other connects with the
water rheostat, which is used for re-
ducing the current
An-Uftit Uotor and Water R&MMat
A tin can, C, is filled nearly to the
top with salt water, and a metal rod,
D, is passed through a piece of wood
fastened at the top of the can. When
the metal rod is lowered the current in-
creases, and as it is withdrawn the cur-
renf grows weaker. In this way the
desired amount of current can be ob-
tained.
By connecting the motor, E, and the
arc light, F, as shown, either one may
be operated by turning switch B to the
corresponding point. The arc light is
easily made by fastening two electric-
light carbons in a wooden frame like
that shown. To start the light, turn the
current on strong and bring the points
of the carbons together ; then separate
slightly by twisting the upper carbon
and at the same time drawing ii^
through the hole.
cbyGOOgIC
How to Make an Interrupter
The Wenult interrupter is an in-
strument much used on large coils and
is far more efficient tlian the usual
DmbU* of latetiuptar
form of -vibrators. It can also be used
with success on small coils as well as
large. Although it is a costly instru-
ment to purchase, it can be made with
practically no expense and the con-
struction is very simple.
First procure a wide-mouthed bottle
about 4 in. high, provided with a rubber
stopper. This stopper should be
pierced, making two holes about ^4 in.
in diameter.
From a sheet of lead -^ in. in thick-
out with a small stick until it fits
against the side, leaving the small strip
at the top projecting through the neck
of the bottle. Bend this strip to one
side and fit in the stopper, as shown in
C. A small binding-post is fastened at
the end of the strip.
Having fixed the lead plate in posi-
tion, next get a piece of glass tube
having a bore of about 1/33 of an inch
in diameter. A piece of an old ther-
mometer tube will serve this purpose.
Insert this tube in the hole in the
stopper farthest from the lead plate.
Get a piece of wire that will fit the
tube and about 6 in. long, and fasten
a small binding-post on one end and
stick the other into the tube. This
wire should fit the hole in the tube so it
can be easily moved. In the hole near-
est the lead plate insert a small glass
funnel.
The interrupter as it is when com-
plete is shown at D, Fig. 1. Having
finished the interrupter, connect it with
the electric-light circuit as shown in
Fig. 2. Fill the bottle with water to
about the line as shown in D, Fig. 1.
Adjust the wire in the small glass tube
so that it projects about % in. Add
sulphuric acid until the water level
rises about -ft in. Turn on the current
and press the button, B. If all ad-
^^3
Tbe ComDlotad Ii
ness cut a piece shaped like A, Fig. 1.
Common tea lead folded several times
will serve the purpose. When in the
bottle this lead should be of such a size
that it will only reach half way around,
as shown in B. To insert the lead
plate, roll it up so it will pass through
the neck of the bottle, then smooth it
justments are correct, there will be a
loud crackling noise from the interrup-
ter, a violet flame will appear at the
end of the wire and a hot spark will
pass between the secondary terminals.
If the interrupter does not work at
first, add more sulphuric acid through
the funnel and press the wire down a
cbyGOOgIC
little more into the liquid. A piece of
wood. A, Fig. 2, should be inserted in
vibrator to prevent it from working. —
Contributed by Harold L. Jonfes,
Carthage, N. Y.
A Miniature "Pepper's Ghoet"
niusion
Probably many readers have seen a
"Pepper's Ghost" illusion at some
amusement place. As there shown,
the audience is generally seated jn a
dark room at the end of which there is
a stage with black hangings. One of
the audience is invited onto the stage,
where he is placed in an upright open
lighted only from behind the glass.
Hence the coffin and its occupant are
seen through the glass very plainly.
The lights in front of the glass (behind
the scenes) are now raised very gradu-
ally as those behind the glass arc
turned down, until it is dark there. The
perfectly black surface behind the glass
now acts like the silver backing for a
mirror, and the object upon which the
light is now turned — in this case the
skeleton — is reflected in the glass, ap-
pearing to the audience as if really oc-
cupying the stage.
The model, which requires no special
skill except that of carpentry, is con-
structed as shown in the drawings.
Conatructlon ol tlM "Pcpper'l QboK" lUutiaa
coffin. A white shroud is thrown over
his body, and his clothes and flesh
gradually fade away till nothing but
his skeleton remains, which imme-
diately begins to dance a horrible
rattling jig. The skeleton then fades
away and the man is restored again.
A simple explanation is given in the
Model Engineer. Between the audi-
ence and the coffin is a sheet of trans-
parent glass, inclined at an angle so
as to reflect objects located behind the
scenes, but so clear as to be invisible
to the audience and the man in the
loffin. At the beginning the stage is
The box containing the stage should
be 14 in. by 7 in, by 'i'^A in., inside di-
mensions. The box need not be made
of particularly good wood, as the en-
tire interior, with the exception of the
glass, flgures and lights, should be
colored a dull black. This can well be
done by painting with a solution of
lampblack in turpentine. If eveiy-
thing is not black, especially the joints
and background near A, the illusion
will be spoiled.
The glass should be the clearest pos-
sible, and must be thoroughly cleansed.
Its edges should nowhere be visible, and
l:v v^n.^v_'viv_
it should be free from scratches and
imperfections. The figure A should be
a doll about 4 in. high, dressed in bril-
liant, light-colored garments. The
skeleton is made of papier mache, and
can be bought at Japanese stores. It
should preferably be one with arms
suspended by small spiral springs,
giving a Hmp, loose-jointed effect. The
method of causing the skeleton to dance
is shown in the front view. The figure
is hung from the neck by a blackened
stiff wire attached to the hammer wire
of an electric bell, from which the
gong has been removed. When the
bell works he will kick against the rear
wall, and wave his arms up and down,
thus giving as realistic a dance as any-
one could expect from a skeleton.
The lights, L and M, should be min-
iature electric lamps, which can be run
by three dry cells. They need to give
a fairly strong light, especially L,
which should have a conical tin re-
flector to increase its brilliancy and
prevent its being reflected in the glass.
Since the stage should be some dis-
tance from the audience, to aid the
illusion, the angle of the glass and the
inclination of the doll. A, has been so
designed that if the stage is placed
on a mantle or other high shelf, the
image of A will appear upright to an
observer sitting in a chair some dis-
tance away, within the limits of an or-
dinary room. If it is desired to place
the box lower down, other angles for
the image and glass may be found nec-
essary, but the proper tilt can be found
readily by experiment.
The electric connections are so sim-
ple that they are not shown in the
drawings. All. that is necessary is a
two-point switch, by which either L or
M can be placed in circuit with the
battery, and a press button in circuit
with the bell and its cell.
If a gradual transformation is de-
sired, a double-pointed rheostat could
be used, so that as one light dims the
other increases in brilliancy, by the in-
sertion and removal of resistance coils.
With a clear glass and a dark room
this model has proved to be fully as
bewildering as its prototype.
Experiment with Colored Electric
Lamps
To many the following experiment
may be much more easily performed
than explained : Place the hand or
other object in the light coming from
two incandescent lamps, one red and
Tvn>-Colo[ed Hand
one white, placed about a foot apart,
and allow the shadow to fall on a white
screen such as a table-cloth. Portions
of the shadow will then appear to be a
bright green. A similar experiment
consists in first turning on the red
light for about a minute and then turn-
ing it off at the same time that the
white one is turned on. The entire
screen will then appear to be a vivid
green for about one second, after which
it assumes its normal color.
To Explode Powder with Electricitj^
A 1-in. hole was bored in the center
of a 2-in. square block. Two finishing-
nails were driven
in, as shown in
the sketch.
These were con-
nected to termi-
nals of an induc-
tion coil. After
everything was
ready the pow-
der was poured
in the hole and a
board weighted with rocks placed over
the block. When the button is pressed
■'S
iC
or the circuit closed in some other way
the discharge occurs. The distance
between the nail points — which must
be bright and clean — should be just
enough to give a good, fat spark. —
Contributed by Geo. W. Fry, San Jose,
Cal.
Simple Wireless System
The illustrations will make plain a
simple and inexpensive apparatus for
Small Electrical Hydrogen Generator
A small hydrogen generator may be
made from a fruit jar, A (see sketch),
with two tubes, B and C, soldered in
the top. The plates E can be made of
tin or galvanized iron, and should be
separated about ^s in- by small pieces
of wood. One of these plates is con-
nected to metal top, and the wire from
the other passes through the tube B,
which is ^Iled with melted rosin or
MHO nuBBCR IHSULKtt
^UOKX KEY
3
HUdF
« FLATl yaofMD
ceu: ^tCcuMvixnm
HMO RUBBER ISSUIATCR'
TftfMMmrNO SmTKW.
TtLCPHONC mcBvai
=3
eoppcn PLATES MO iNsuumm
SAME *a ns.t
REcnvrNS smnoN.
ns 2-
Slinpls Winlou Srttem
wireless telegraphy by which I have
had no difficulty in sending messages
across 1^ miles of water surface. It is
so simple that the cuts scarcely need
explanation. In Fig. 1 is seen the send-
ing apparatus, consisting of a 40-cell
battery connected with two copper
plates 36 by 36 by % in. The plates
are separated 6 in. by a piece of hard
rubber at each end.
In Fig. 2 are seen duplicates of
these insulated plates, connected with
an ordinary telephone receiver. With
this receiver I can hear distinctly the
electric signals made by closing and
opening the Morse key in Fig. I, and I
believe that in a short time I shall be
able to perfect this system so as to
send wireless messages over long dis-
tances. — Contributed by Dudley H.
Cohen, New York.
CTo prevent water colors from crawl-
ing, add a few drops of ammonia or
lime water, or a solution of sal soda.
wax, to make it airtight. This wire
connects to one side of a battery of two
cells, the other wire being soldered to
the metal top of the jar, as shown. The
jar is partly filled with a very dilute
solution of sulphuric acid, about 1 part
of acid to 20 of water.
When the current of electricity
passes between the plates E, hydrogen
gas is generated, which rises and passes
through the rubber hose D, into the
receiver G. This is a wide-mouth bot-
tle, which is filled with water and in-
verted over a pan of water, F. The gas
izocbyGOOgIC
bobbling up displaces the water and
fills the bottle.
If the receiver is removed when half
full of gas, the remaining space will be
filled with air, which will mix with the
gas and form an explosive mixture. If
a lighted match is then held near the
mouth of the bottle a sharp report will
be heard.
If the bottle is fitted with a cork
containing two wires nearly touching,
and the apparatus connected with an
induction coil, in such a manner that a
spark will be produced inside the bot-
tle, the explosion will blow out the cork
or possibly break the bottle. Caution
should be used to avoid being struck
by pieces of flying glass if this experi-
ment is tried, and under no condition
should a lighted match or spark be
brought near the end of the rubber
hose D, as the presence of a little air
in the generator will make an explosive
mixture which would probably break
the jar.
Gaaoline Burner (or Model Work
When making a small model trac-
tion engine or a locomotive the ques-
tion arises, "What shall the fuel be?"
If you have decided to use gasoline,
then a suitable burner is necessary.
A piece of braes tubing about 3 in. m
diameter and 6 in. long with caps
screwed on both ends and fitted with a
filling plug and a bicycle valve makes
a good gasoline supply tank, says the
Model Engineer, London, The bicycle
valve is used to give the tank an air
pressure which forces the gasoline to
the burner.
The burner is made from a piece of
brass tube. A, as is shown in the illus-
tration, *4 in. in diameter and 2V^ in,
long, which is plugged up at both ends,
one end being drilled and reamed out
to A in. Three rows of holes A i"- in
diameter are drilled in the brass tube.
One row is drilled to come directly on
top, and the other two at about 45° from
the vertical. It is then fitted to a sheet-
steel base, B, by means of the clips,
C C, Fig. 1. A piece of %-in. copper
pipe, P, is then coiled around the brass
tube, A, which forms the vaporizing
coil. This coil should have a diameter
of only 1 in. One end of the copper
tube is bent around so it will point di-
rectly into the reamed-out hole in the
end of the brass tube, A. A nipple, N,
is made by drilling a *F^-in. hole half-
way through a piece of brass and tap-
ping to screw on the end of the %-in.
copper pipe. A 1/64-in. hole is then
drilled through the remaining part of
the nipple. The other end of the cop-
per tube is connected to the supply
tank. The distance between the nip-
ple, N, and the ends of the tube, A,
should be only ^ of an inch. Fig. 2
shows the end view.
A Homemade Telephone Receiver
A telephone receiver that will do
good work may be built very cheaply
as follows: For the case use an ordi-
nary Yz'lh. baking-powder box with a
piece of heavy wire
soldered on the in-
side, lA in. from the
bottom. For the mag-
net use a piece of
round hardened steel
about % in. in diam-
eter and ly^ in. long.
If desired, a piece of
an old round file may
be used for the mag-
net core, which should
be magnetized previ-
ous to assembling,
either by passing a current of electric-
ity around it, or by direct contact with
another magnet. The steel core
should be wound with about 250 ft. of
No. 36 insulated wire, the ends of
which should be soldered to a piece of
jOOgIc
lamp cord, passed through a hole in
the bottom of the can and knotted in-
sfde to prevent pulling out.
A disk of thin sheet-iron, such as is
used by photographers for tintypes
(Ferrotype), should be cut to the di-
ameter of the can, taking care not to
bend the iron. The magnet should
then be placed in the bottom of the
can in an upright position and enough
of a melted mixture of beeswax and
resin poured in to hold it in position.
While the wax is still in a plastic
condition the magnet should be located
centrally and adjusted so that the end
will be ^ in. or less below the level
of the top of the copper ring.
After the wax has hardened the disk
is slipped in and fastened tightly by a
ring of solder when the instrument is
ready for use.
How to Bind Magazines
An easy way to bind Popular Me-
chanics in volumes of six months each
is to arrange the magazines in order
and tie them securely both ways with
a strong cord. It is well to
put two or three sheets of
tough white paper, cut to
the size of the pages, at the
front and back for fly leaves.
Clamp the whole in a vise
or clamp with two strips of
wood even with the back
edges of the magazines.
With a sharp saw cut a slit
in the magazines and wood
strips about ^ in. deep and
slanting as shown at A and
B, Fig. 1. Take two strips
of stout cloth, about 8 or 10
in. long and as wide as the
distance between the bot-
toms of the sawed slits. Lay these
over the back edge of the pack and tie
securely through the slits with a string
thread — wrapping and tying several
times (C, Fig. 2).
If you have access to a printer's
paper knife, trim both ends and the
front edge ; this makes a much nicer
book, but if the paper knife cannot be
used, clamp the whole between two
boards and saw off the edges, boards
and all, smoothly, with a fine saw.
Cut four pieces of cardboard, % in.
longer and ^ in. narrower than the
magazines after they have been
trimmed. Lay one piece of the board
on the book and under the cloth strips.
Use ordinary flour paste and paste the
strips to the cardboard and then rub
paste all over the top of the strips and
the board. Rub paste over one side of
another piece of board and put it on
top of the first board and strips, press-
ing down firmly so that the strips are
held securely between the two boards.
Turn the book over and do the same
with the other two boards.
After the paste has dried a tew
minutes take a piece of strong cloth,
duck or linen, fold and cut it I in,
larger all around than the book, leav-
ing the folded edge uncut. Rub paste
over one of the board backs and lay
one end of the cloth on it, smoothing
and creasing as shown at A, Fig. 3.
Turn the book over and paste the other
side. The back edges should have a
good coat of paste and a strip of paper
[Dmcmaila Blndlae
the width of the thickness of the pack
pasted on before pasting the cloth to
the second board back.
Cut off the comers and fold over
the edges of the cloth, pasting them
down (Fig. 4). Rub paste on one side
of a fly leaf and press the back down
on it. Turn the book over and paste
a fly leaf to the other back after the
lOOglc
edges of the cloth have been folded
down. The backs must not be opened
until the fly leaves are thoroughly dry.
Trim and tuck in the ends of the strip
at the back edge.
When fixed this way your magazines
make one of the most valuable vol-
umes you can possibly add to your
library of mechanical books. — Contrib-
uted by Joseph N. Parker, Bedford
City, Va.
A Homemade Acetylene-Qas
Generator
A simple acetylene-gas generator
used by myself for several years when
out on camping
L---^^:-?
trips was made
of a galvanized-
iron tank, with-
out a head, 18 in.
in diameter and 30
in. deep, B, as.
shown in the
sketch. Another
tank. A, is made
the same depth as
B, but its diame-
ter is a little smaller, so that inverted
it will just slip easily into the tank B.
In the bottom, or rayier the top now,
of tank A is cut a hole, and a little can,
D, is fitted in it and soldered. On top
and over can D is soldered a large tin
can screw. A rubber washer is fitted'
on this so that when the screw top, E,
is turned on it, the joint will be gas-
tight. Another can, C, which will just
slip inside the little can, is perforated
with a number of holes. This can C
is filled about half full of broken pieces
of carbide and then placed in the little
can D. A gas cock, H, is soldered onto
tank A, as shown, from which the gas
may be taken through a rubber tube.
Fill tank B with water and set tank A
into it. This will cause some air to
be inclosed, which can be released by
leaving the cock open until tank A
settles down to the point where the
water will begin to run in the perfora-
tions of the little tank. The water
then comes in contact with the carbide
and forms gas, which expands an<)
stops the lowering of tank A. Then the
cock must be closed and tubing at-
tached. It is dangerous to attempt to
strike a match to light a jet or the end
of the cock while air is escaping and
just as the first gas is being made.
Wait until the tank is well raised up
before doing this. — Contributed by
James E. Noble, Toronto, OnL
Homemade Annunciator
When one electric bell is operated
from two push-buttons it Is impossible
to tell which of the two push-buttons
is being operated unless an annuncia-
tor or similar device is used, A very
simple annunciator for indicating two
numbers can be made from a small box.
Fig. 1, with an electric-bell magnet,
A, fastened in the bottom. The arma-
ture, B, is pivoted in the center by
means of a small piece of wire and has
an indicator or hand, C, which moves
to either right or left, depending on
which half of the magnet is magnet-
ized. If the back armature, D, of the
magnet is removed the moving arma-
ture will work better, as this will pre-
vent the magnetism from acting on
both ends of the armature.
The wiring diagram. Fig. 2, shows
how the connections are to be made.
If the push-button A is closed, the bell
will ring and the pointer will point at
AnatiBciaMr and Wlrinc Olacrain
1, while the closing of the push-button
B wilt ring the bell and move the
pointer to 2. — Contributed by H. S.
Bott, Beverly, N. J.
lOOglc
How to Make a Box Kite
As some of the readers of Amateur
Mechanics may desire to build a box
kite, a simple method of constructing
one of the modern type is given in de-
tail as follows: The sticks
should be made of straight-
grained wood, which may
be either spruce, basswood
or white pine. The longi-
tudinal corner spines, A A,
should be % in. square by
42 in. long, and the four di-
agonal struts, B, should
be Yi in. by i^ in., and
about 26 in. long. Two
cloth bands should be made
to the exact dimensions
given in the sketch and
fastened to the four longi-
t;tdinal sticks with 1-oz.
tacks. It is well to mark
the positions of the sticks
on. tl:e cloth bands, either
with a soft lead-pencil or
crayon, in order to have
the four sides of each band
exactly equal. The ends of
the bands should be lapped
over at least V2 in. and
sewed double to give extra
strength, and the edges should be care-
fully hemmed, making the width, when
finished, exactly 13 in. Probably the
best cloth for this purpose is nainsook,
although lonsdale cambric or light-
weight percaline will answer nearly as
well.
The diagonal struts, B. should be
cut a little too long, so that they will
be slightly bowed when put in posi-
tion, thus holding the cloth out taut
and flat. They should be tied to-
gether at the points of intersection
and the ends should be wound with
coarse harnessmaker's thread, as shown
at C, to prevent splitting. The small
guards, D, are nailed or glued to the
longitudinal sticks to prevent the struts
slipping out of position. Of course the
ends of the stmts could be fastened to
the longitudinal strips if desired, but if
made as described the kite may be read-
ily taken apart and rolled up for con-
venience in carrying.
The bridle knots, E, are shown in
detail at H and J. H is a square knot,
which may be easily loosened and
DetaU of Boi Kite
shifted to a different position on the
bridle, thus adjusting the lengths of F
and G. A bowline knot shoulc" be tied
at J, as shown, to prevent slipping. If
the kite is used in a light wind, loosen
the square knot and shift nearer to G,
thus shortening G and lengthening F,
and if a strong wind is blowing, shift
toward F, thereby lengthening G and
making F shorter. In a very strong
wind do not use the bridle, but fasten
a string securely to the stick at K —
Contributed by Edw. E. Harbert,
Chicago.
CAn experienced photographer uses
blacklead for grooves about a camera
or holder. A small quantity is rubbed
well into the grooves and on the edges
of shutters, that refuse to slide easily,
with gratifying results. Care must he
taken to allow no dust to settle in tho
holders, however.
d by Google
Simple Opett-Circtdt Tdegraph Line
By using the circuit shown in the
sketch for short-distance telegraph
lines, the extra switches and wiring
found in many circuits are done away
with. Closing either key will operate
both sounders, and, as the resistance of
the sounders is very high, the batteries
do not run down for a long time. — Con-
tributed by A. D. Stoddard, Clay Cen-
ter, Kan.
How to Make a Thermo Battery
A thermo battery, for producing
electricity direct from heat, can be
made of a wooden frame. A, with a
number of nails, B, driven in the
vertical piece and connected in series
with heavy copper wires, C. The
connections should all be soldered to
give good results, as the voltage is
cohol lamp or other device, and the
current may then be detected by means
of a simple galvanometer consisting
of a square spool of No. 14 or No, 16
single-covered wire, E, with a pocket
compass, F, placed on top. Turn the
spool in a north and south direction,
or parallel with the compass needle.
Then, when the nail heads are heated
and tht circuit completed, the needle
will swing around it at right angles
to the coils of wire. Applying ice or
cold water to the nail heads will reverse
the current. — Contributed by A. C. A.,
Chicago.
How to ZMscharge a Toy Cannon
by Electricity
A device for discharging a toy can-
non by electricity can be easily made
by using three or four dry batteries,
a switch and a small induction coil
very low and the resistance of an un-
soldered joint would stop the current.
The heat may be supplied by an al-
Bt for OiccbarclDf Tor CaoDon
capable of giving a %-in. spark.
Fasten a piece of wood. A, to the can-
non, by means of machine screws or,
if there are no trunnions on the can-
non, the wood may be made in the
shape of a ring and slipped on over
the muzzle. The fuse hole of the
cannon is counterbored as shown and
a small hole is drilled at one side to
receive a small piece of copper wire, E.
The wood screw, C, nearly touches E
and IS connected to one binding post
of the induction coil. The other bind-
ing post is connected with the wood
screw, D, which conducts the current
into the cannon, and also holds the
pieces of wood, A and 6, in position.
When the cannon is loaded, a small
quantity of powder is placed in the
counterbore, and the spark between C
and E ignites this and discharges the
dbyGOOgIC
cannon. A cannon may be fired from
a distance in this way, and as there
is no danger of any spark remaining
after the current is shut off, it is safer
than the ordinary cannon which is
fired by means of a fuse. — Contributed
by Henry Peck, Big Rapids, Mich.
Simple Electric Lock
The illustration shows an automatic
lock operated by electricity, requiring
a strong magnet, but no weights or
strings, which greatly simplifies the
device over many others of the kind.
Lock 0»erat*d by ■ MwnM
The weight of the long arm, L, is
just a trifle greater than the combined
weights of the short arms, A and S.
The fulcrum of the lever is at C, where
there is a staple. The lever swings
on one arm of the staple and the other
arm is so placed that when the lever
is in an upright position, with the long
arm at L', it will not fall because of
its greater weight but stays in the
position shown. The purpose of this
is to leave the short arm, A, when in
position at A', within the reach of the
magnet. Arm L rests on an L-shaped
hook. H ; in this position the door is
locked.
To unlock the door, press the button,
B. The momentum acquired from the
magnet by the short arms, A and S, is
sufficient to move the long arm up to
the position of L'. To lock the door.
press the button and the momentum
acquired from the magnet by the short
arms, now at A' and S', is sufficient to
move the long arm down from L' to
the position at L. — Contributed by
Benjamin Kubelsky, Chicago.
Direct-Connected Reverse for Small
Motors
A simple reverse for small motors
can be attached directly to the motor
as shown in Fig. 1. Fig. 2 shows the
construction of the reverse block: A
is a strip of walnut % in. square and
% in. thick with strips of brass or cop-
per (BB) attached as shown. Holes
(CC) are drilled for the wire connec-
tions and they must be flush with the
surface of the block. A hole for a VS-
in. screw is bored in the block. In Fig.
1. D is a thin strip of walnut or other
dense, hard wood fitted to the binding
posts of the brush holders, to receive
the screw in the center.
Before putting the reverse block on
the motor, remove all the connections
between the lower binding posts and
the brush holders and connect both
ends of the field coil to the lower posts.
Bend the strips BB (Fig. 2) to the
proper position to make a wiping con-
tact with the nuts holding the strip of
wood D, Fig. I. Put the screw in tight
Slroct-Coiuactod
:,i=.:l, ^,OOglC
enough to make the block turn a little
hard. Connect as shown in the illus-
tration. To reverse, turn the block so
the strips change connections and the
motor will do the rest. — Contributed by
Joseph B. Keil, Marion, Ohio.
A Handy Ice Chisel
Fishing through the ice is great
sport, but cutting the first holes pre-
paratory to setting the lines is not
always an easy task. The ice chisel
here described will be found very
handy, and may be made at very
slight expense.
In the top of an old ax-head drill a
A-in. hole, and then tap it for a %-in.
gas-pipe, about 18 in. long. Thread
the other end of the pipe, and screw on
CombiBatian Ax and Ic* Chlail
an old snow-shovel handle. When
ready for use, screw the two pieces
together and you have your chisel
complete.
A short ax-handle may be included
in the outfit. When the holes are fin-
ished and your lines set, unscrew the
pipe from the head of the ax, put in
the handle, and your ax is ready to cut
the wood to keep your fire going. —
Contributed by C. J. Rand, West Som-
erville, Mqss.
M(»« Uses for -Pipe Fittings
It would seem that the number of
useful articles that can be made from
pipes and fittings is unlimited. The
sketch shows two more that may be
added to the list. A and B are front
and side views of a lamp-screen, and
C is a dumbbell. The lamp-shade is
particularly useful for shading the
eyes when reading or writing and, if
enameled white on the concave side,
makes an excellent reflector for draw-
ing at night, or for microscopic work.
The standard and base, consisting
of an ordinary pipe flange bushed down
to receive the upright nipple, are enam-
eled a jet black, and if the device is to
be used on a polished table, a piece of
LAmp Slutde and Dumbbell
felt should be glued to the bottom.
A good way to hold the fan in the
nipple is to use a small wedge.
The dumbbells are made of short
pieces of %-in. pipe with IV^-in. coup-
lings fastened to each end by pouring
melted lead in the space between the
pipes and the couplings. The appear-
ance is greatly improved by enameling
black, and if desired the handles may
be covered with leather, — Contributed
by C. E. Warren, M. D., North Easton,
Mass.
Sealing-Wax Bent While Cold
If a piece of sealing-wax is supported
in a horizontal position by one end, as
shown at A in the sketch, it will grad-
ually bend to the shape indicated by
the dotted lines B. To attempt bend-
ing it with the hands would result in
breaking it unless a steady pressure
were applied for a long time. This pe-
culiar property is also found in ice.
(^^^
'
f>>'^^"
S^-^TD
"•« 1
Bcnouf Cold Saalinc-Wax
z=ci„^i00glc
Homemade Pottery Kiln
A small kiln for baking clay figures
may be built at a cost of $1. The fol-
lowing shows the general plan of such
a kiln which has stood the test of 800
firings, and which is good for any work
requiring less than 1400° C.
Get an iron pail about 1 ft. high by
1 ft. across, with a cover. Any old
pail which is thick enough will do,
while a new one will cost about 80
cents. In the bottom of this cut a S-in.
round hole and close it with a cork or
wood plug, A, Fig. 1, which shall pro-
ject at least 2 in. inside the pail. Make
a cylindrical core of wood, B, Fig. 1,
8 in. long and 8 in. across. Make a
mixture of clay, 60% ; sand, 15% ; and
graphite, 25%, kneading thoroughly in
water to a good molding consistency.
Line the pail, bottom and sides, with
heavy paper and cover the core with
same. Now pack the bottom of the
pail thoroughly with a 2-in. layer of the
clay mixture, and on it set the paper-
wrapped core, carefully centering it.
The 2 in, of space between the core and
the sides of the pail all around is to be
tilled with clay, C, as is shown in the
sketch, using a little at a time and
packing it very tight. In like manner
make the cover of the kiln, cutting the
hole a little smaller, about 1 in. At the
edge or rjm of the cover encircle a 2-in.
strip of sheet iron, E, Fig. 2, to hold
the clay mixture, C. Set aside for a
few days until well dried.
While these are drying you may be
making a muffle, if there is to be any
glazing done. This is a clay cylinder
(Fig. 3) with false top and bottom, in
which the pottery to be glazed is pro-
tected from any smoke or dust It is
placed inside the kiln, setting on any
convenient blocks which will place it
midway. The walls of the mufHe
should be about ^ in. thick, and the
dimensions should allow at least 1 in.
of space all around for the passage of
heat between it and the walls of the
kiln. By the time the clay of the kiln
is well dried, it will be found that it
has all shrunk away from the iron
about % in. After removing all the
paper, pack this space — top, bottom
and sides — with moist ground asbestos.
If the cover of the pail has no rim, it
may be fastened to the asbestos and
clay lining by punching a few holes,
passing wire nails through and clinch-
ing them. Fit all the parts together
snugly, take out the plugs in the top
and bottom, and your kiln ts ready for
business. The handle of the pail will
be convenient for moving it about, and
it can be set on three bricks or some
more elaborate support, as dictated by
fancy and expense.
The temperature required for bak-
ing earthenware is 1250' -1310", C;
hotel china, 1330** ; hard porcelain,
1390''-1410°. These temperatures can
not be obtained in the above kiln by
means of the ordinary Bunsen burner.
It will be necessary either to buy the
largest size Bunsen, or make one your-
self, if you have the materials. If you
can get a cone which can be screwed
into an inch pipe, file the opening of
the cone to A in. diameter, and jacket
the whole with a 2i^-in. pipe. The
fiame end of this burner tube should
be about 4% in, above the cone openings
and should be covered with gauze to
prevent flame from snapping back.
When lighted, the point of the blue
fiame, which is the hottest part, should
be just in the hole in the bottom of the
kiln. Such a burner will be cheaply
made and will furnish a kiln tem-
perature of 1400°, but it will bum s
great deal of gas.
d by Google
A plumber's torch of medium size
will cost more in the beginning, but
will be cheaper in operation. What-
ever burner is used, the firing should
be gradual, and with especial caution .
the first time. By experiment you will
find that a higher temperature is ob-
tained by placing a 1-in. pipe 3 ft.
long over the lid hole as a chimney.
It would be still more effective to get
another iron pail, 2 in. wider than the
kiln, and get a down draft by inverting
it over the kiln at whatever height
proves most suitable. — G. L. W.
How to Make a Small Medical
Induction Coil
The coil to be described is S^ in.,
full length of iron core, and % in. in
diameter.
Procure a bundle of small iron wire,
say V4 in. in diameter, and cut it 3V^
in. long; bind neatly with coarse thread
and file the ends smooth (Fig. 1).
This done, make two wood ends, 1%
by iVi in. and % in. thick, and varnish.
Bore holes in the center of each so the
core will fit in snugly and leave about
% in, projecting from each end (Fig. 1).
After finishing the core, shellac two
layers of thick paper over it between
the ends; let this dry thoroughly.
Wind two layers of bell magnet wire
over this, allowing several inches of
free wire to come through a hole in the
end. Cover with paper and shellac as
before.
Wind about % in, of fine wire, such
as used on telephone generators,
around the coil, leaving long terminals.
Soak the whole in melted paraffin and
let cool ; bind tightly with black silk.
The vibrator is made of a piece of
thin tin to which is soldered the head
of an iron screw and on the other side
a small piece of platinum, which can
be taken from an old electric bell
(Fig. 2).
Of course, a tegulator must be had
for the vibrator; this can be accom-
plished by bending a stout piece of
copper wire as shown. The connec-
tions and the base for setting up are
shown in the figures. — Contributed by
J. T. R., Washington, D. C.
Mechanical Trick Witb Cards
The following mechanical card trick
is easy to prepare and simple to per-
form:
First, procure a new deck, and divide
it into two piles, one containing the
red cards and the other the black ones,
all cards facing the same way. Take
the red cards, square them up and place
in a vise. Then, with a plane, plane off
the upper right hand corner and lower
left hand corner, as in Fig. 1, about
A in-
Then take the black cards, square
them up, and plane off about ^ in. on
the upper left hand comer and lower
right hand corner, as in Fig, 3.
Next restore all the cards to one
pack, taking care to have the first card
red, the next black, and so on, every
alternate card being the same color.
, TUiSimLS mR€ NO. 31 TV HOLDERS
1 J«E M.3I ] ySASC
^SCREWHCAD
*--RLA77M/M
ns.2
>7r/iWJWLS NO. 24
^ Off ecu, AU9£.T WR£
SOI JIUeNCT MflE" '"""^ ({Ip
f>g.l
ll" BfiJTTRY
■bdlal InductlDD CoU
dbjGooglc
Bend the pack so as to give some
spring to the cards, and by holding one
thumb on the upper left-hand comer
all the cards will appear red to the
audience; place thumb in the center
at top of pack and they will appear
mixed, red and black; with thumb on
upper right-hand comer all cards ap-
pear black. You can display either
color called for, — Contributed by
Ralph Gingrich, Chicago.
How to Make a Rain Gauge
An accurate rain gauge may be
easily constructed from galvanized
iron, as shown in the sketch herewith.
The funnel, A, over-
laps and rests on the
body, B, and dis-
charges into the
tube, C, the area of
which is one-tenth
that of the top of the
funnel. The depth
of the water in C is
thus ten times the
actual rainfall, so
that by measuring
it with a stick
marked off in tenths
of an inch, we obtain
the result in hun-
dredths of an inch.
A good size to
make the rain gauge
is as follows: A, 8
in. diameter ; C, 2.53
in, ; length of C,
about 20 in. It
should be placed in an exposed loca-
tion, so that no inaccuracy will occur
from wind currents. To find the
fall of snow, pour a known quantity
of warm water on the snow contained
in the funnel and deduct the quantity
poured in from the total amount in
the tube. — Contributed by Thurston
Hendrtckson, Long Branch, N, J.
How to Make an Aquarium
In making an aquarium, the first
thing to decide on is the size. It ts well
not to attempt building a very large
one, as the difficulties increase with the
size, A good size is 13 by 12 by 30 in.,
and this is inexpensive to build.
First buy one length of % by %-\n.
angle iron for the frame, F, Fig. 1,
This can be obtained at any steel shop
and should cost about 30 cents. All
the horizontal pieces, B, should be
beveled 45° at the ends and drilled for
■A-'f- stove bolts. The beveling may
be done by roughing out with a hack-
saw and finishing with a file. After
all the pieces are cut and beveled they
should be drilled at the ends for the
A-in- stove bolts, C. Drill all the hori-
zontal pieces, B, first and then mark the
holes on the upright pieces. A, through
the holes already drilled, thus making
all the holes coincide. Mark the ends
of each piece with a figure or letter,
so that when they are assembled, the
same ends will come together again.
The upright pieces, A, should be coun-
tersunk as shown in the detail, and
then the frame is ready to assemble.
After the frame has been assembled
take it to glazier and have a bottom
made of skylight glass, and sides and
ends of double-thick window glass. The
bottom glass should be a good fit, but
the sides and ends should be made
slightly shorter to allow the cement,
E, to form a dovetail joint as shown.
When the glass is put in the frame a
space, D, will be found between the
glass and the horizontal pieces, B, of
the frame. If this were allowed to re-
main the pressure of the water would
spring the glass and cause a leak at E ;
so it is filled up with plaster of pans.
The cement, E, is made as follows:
Take 1 gill of plaster of paris, 1 giU of
litharge, 1 gill of fine white sand, and
l:v v^JV.^v_'Vl^_
% of a gill of finely powdered rosin.
Mix well and add boiled linseed oil and
turpentine until as thick as putty. Let
of Aanarinm PraoM
the cement dry three or tour days be-
fore putting any water in the aquarium.
In choosing stock for the aquarium
it should be remembered that a suffi-
cient quantity of vegetable life is re-
quired to furnish oxygen for the fish.
In a well balanced aquarium the water
requires renewal only two or three
times a year. It is well to have an
excess of plants and a number of snails,
as the snails will devour all the decay-
ing vegetable matter which would
otherwise poison the water and kill
the fish.
can be supported in the position shown
at B. If the mouth (A the jar is below
the surface of the water it will stay
filled and allow the fish to swim up in-
side as shown. Some washed pebbles
or gravel should be placed on the bot-
tom, and, if desired, a few Chinese
lilies or other plants may be placed on
the centerpiece.
Homemade Pneumatic Lock
Mount an old bicycle hand-pump. A,
on the door by means of a metal plate,
B, having a swinging connection at C.
Fasten the lever, D, to the door knob,
and make a hinge connection with the
pump by means of a piece of sheet
;(^IL
r^
w
/C;
a
/■^
K
If desired, a centerpiece (A, Fig. 2)
can be made of colored stones held to-
gether by cement, and an inverted jar
■i '
brass, E, soldered to the end of the
cylinder. All this apparatus is on the
inside of the door and is connected by
a small rubber tube, F, to a secret
mouthpiece placed at some convenient
location. A small piece of spring brass,
screwed to the door frame, will open
the door about ^ in. when the operator
blows in the mouthpiece, or if the door
is within reach of the mouthpiece, the
operator may push the door at the
same time that he blows, thus doing
away with the spring, which is only
used to keep the door from relocking.
One way of making the air connec-
tion with the outside is to bend the
tube F around and stick it through
the keyhole. Few burglars would
ever think to blow in the keyhole. —
Contributed by Orton E. White, Buf-
falo, N. Y.
izocbyClOOglC
A f^miemade Water Motor
By MRS. PAUL S. WINTER
In these days of modern imprcrt-
ments, most houses are equipped with
a washing-machine, and the question
that arises in the mind of the house-
holder is how to furnish
the power to run it eco-
nomically. I referred this
question to my husband,
with the result that he built
a motor which proved so
very satisfactory that I
prevailed upon him to give
the readers of Amateur
Mechanics a description of
it, hoping it may solve the
same question for them.
A motor of this type will
develop about Vz hp. with a
water pressure of 70 lb.
The power developed is
correspondingly increased
or decreased as the press-
ure exceeds or falls below
this. In the latter case the
power may be increased by
using a smaller pulley.
Fie. 1 is the motor
with one side removed, showing the
paddle-wheel in position; Fig. 3 is an
end view ; Fig. 3 shows one of the pad-
dles, and Fig. 4 shows the method
of shaping the paddles. To make
the frame, several lengths of scantling
3 in. wide by 1 in. thick (preferably of
hard wood) are required. Cut two of
them 4 ft. long, to form the main sup-
ports of the frame, AA, Fig, t ; another,
2 ft. 6 in. long, for the top, B, Fig. 1;
another, 26 in. long, to form the slant-
ing part, C, Fig. 1 ; and another, D, ap-
• proximately 1 ft., according to the slant
given C. After nailing these together
as shown in the illustration, nail two
short strips on each side of the outlet,
as at E, to keep the frame from spread-
of the frame. They are shown in Fig. S
at GG. Do not fasten these boards
now, but mark their position on the
frame. Two short boards 1 in. wide
ing.
Cut 1
: two pieces 30 in. long. Lay
these on the sides of the frame with
their center lines along the line FF,
which is 15 in. from the outside top
DtMl of Homamada WatarwbMl
by 1 in. thick (HH, Fig. 2) and an-
other 1 in. by 1^ in. (I, Fig. 2) form a
substantial base.
Cut the wheel from sheet iron A
in. thick, 24 in. in diameter. This
can be done roughly with hammer and
chisel and then smoothed up on an
emery wheel, after which cut 24 radial
slots %, in. deep on its circumference
by means of a hacksaw. On each side
of the wheel at the center fasten a
rectangular piece of %-in. iron 3 by 4
in. and secure it to the wheel by means .
of four rivets; after which drill a %-
in. hole through the exact center of
the wheel.
Cut 24 pieces of 1/32-in. iron, 1%
by 2^ in. These are the paddles.
Shape them by placing one end over a
section of 1-in. pipe, and hammer bowl-
shaped with the peen of a hammer, as
shown in Fig. 4. Then cut them into
the shape shown in Fig. 3 and bend
l:v v^<v.^v_'Vl^_
the tapered end in along the tines JJ,
after which place them in the slots
of the wheel and bend the sides over to
clamp the wheel. Drill %-in. holes
through the wheel and sides of the pad'
dies and rivet paddles in place. Next
secure a %-in, steel shaft 12 in. long
to the wheel about 8 in. from one
end by means of a key. This is done
by cutting a groove in the shaft and a
corresponding groove in the wheel and
fitting in a piece of metal in order to
secure the wheel from turning inde-
pendently of the shaft. Procure two
collars or round pieces of brass (KK,
Fig. 2) with a %-in. hole through them,
and fasten these to the shaft by means
of set screws to prevent it from
moving lengthwise.
Make the nozzle by taking a piece of
J^-in. galvanized pipe 3^ in. long and
filling it with babbitt metal ; then drill
a -ft-in. hole through its center. Make
this hole conical, tapering from -ft in.
to a full Yz in. This is best done by
using a square taper reamer. Then
place the nozzle in the position shown
in Fig. 1, which allows the stream of
water to strike the buckets full in the
center when they reach the position
farthest to the right.
Take the side pieces, GG, and drill
a 1-in. hole through their sides cen-
trally, and a ^-in. bote from the tops
to the 1-in. holes. Fasten them in
their proper position, with the wheel
and shaft in place, the shaft project-
ing through the holes just mentioned.
Now block the wheel; that is, fasten
it by means of wedges or blocks of
wood until the shaft is exactly in the
center of the inch holes in the side
pieces. Cut four disks of cardboard to
slip over the shaft and large enough
to cover the inch holes. Two of these
are to be inside and two outside of
the frames (one to bear against each
side of each crosspiece). Fasten these
to the crosspieces by means of tacks
to hold them securely. Pour melted
babbitt metal into the ^-in. hole to
form the bearings. When it has
cooled, remove the cardboard, take
down the crosspieces, and drill a %*in.
hole from the top of the crosspieces
through the babbitt for an oil-hole.
Secure sufficient sheet zinc to cover
the sides of the frame. Cut the zinc
to the same shape as the frame and
let it extend down to the crosspieces
EE. Tack one side on. (It is well to
tack strips of heavy cloth — buriap will
do— along the edges under the zinc to
form a water-tight joint.) Fasten the
crosspiece over the zinc in its proper
position. Drill a hole through the
zinc, using the hole in the crosspiece
as a guide. Then put the wheel in a
central position in the frame, tack the
other side piece of zinc in place and
put the other crosspiece in place. Place
the two collars mentioned before on the
shaft, and fasten so as to bear against
the crosspieces, in order to prevent the
wheel and shaft from moving sidewise.
If the bearings are now oiled, the shaft
should turn easily and smoothly.
Fasten a pulley 4 or 6 in. in diameter
to the longest arm of the shaft.
Connect the nozzle to a water faucet
by means of a piece of hose ; place the
outlet over a drain, and belt the motor
direct to the washing-machine, sewing-
machine, ice-cream freezer, drill press,
dynamo or any other machinery re-
quiring not more than ^ hp.
This motor has been in use in our
house for two years in all of the above
ways, and has never once failed to give
perfert satisfaction. It is obvious that,
had the wheel and paddles been made
of brass, it would be more durable, but
as it would have cost several times as
much, it is a question whether it would
be more economical in the end. If
sheet-iron is used, a coat of heavy paint
would prevent rust and therefore pro-
long the life of the motor. The motor
will soon pay for itself in the saving
of laundry bills. We used to spend
$1 a month to have just my hus-
band's overalls done at the laundry,
but now I put them in the machine,
start the motor, and leave them for an
hour or so. At the end of this time
they are perfectly clean, and I have
noticed that they wear twice as long
as when I sent them to the laundry.
.izciv^iOOglc
How to Make Silhouettes
Photography in all branches is truly
a most absorbing occupation. Each of
us who has a camera is constantly
experimenting, and
every one oT us is
delighted when
something new is
suggested for such
experiments.
To use a camera
in making silhou-
ettes select a win-
dow facing north if
possible, or if used
only at times when
the sun is not on it,
any window will do,
says the Photo-
graphic Times. Raise the window
shade half way, remove any white cur-
tains there may be, and in the center
of the lower pane of glass paste by the
four corners a sheet of tissue paper
that is perfectly smooth and quite thick,
as shown in the sketch at B. Darken
the rest of the window, shutting out
all light from above and the sides.
Place a chair so that after being seated
the head of the subject will come be-
fore the center of the tissue
paper, and as near to it as
possible, and when looking
straight before him his face
will be in clear profile to
the camera.
Driw the shades of all
other windows in the
room. Focus the camera
carefully, getting a sharp
outline of the profile on
the screen. Do not stop
down the lens, as this
makes long exposure nec-
essary, and the subject may
move.
Correct exposure de-
pends, of course, on the lens, light and
the plate. But remember that a black
and white negative is wanted with as
little detail in the features as possible.
The best plate to use is a very slow one,
or what is called a process plate.
In developing get all possible den-
sity in the high lights, without detail
in the face, and without fog. Printing
is best done on contrasty development
paper with developer not too strong.
The ideal silhouette print is a per-
fectly black profile on a white ground.
With a piece of black paper, any shape
in stopping off print may be made as
shown at C in the sketch.
How to Make a Galvanoscope
A galvanoscope for detecting small
currents of electricity can be made
from a coil of wire, A ; a glass tube, B,
lull of water; a core, C; and a base, D,
with binding posts as shown. The core
C, which is made of iron and cork, is
a trifle lighter than the water it dis-
places and will therefore normally re-
main in the top of the tube; but as
soon as a current of electricity passes
through the coil, the core is drawn
down out of sight. The current re-
quired is very small, as the core is so
nearly balanced that the least attrac-
tion will cause it to sink.
The glass tube may be a test tube,
as shown in Fig. 2, or an empty devel-
oper tube. If one has neither a test
tube nor developer tube, an empty pill
bottle may be used. The washers at
the ends of the coil can be made of
fiber, hard rubber, or wood ; or can be
taken from an old magnet. The base
may be made of wood or any other
ly v^<v.^v_'Vl^_
insulating material and should have
four short legs on the bottom. Make
the coil of single-covered wire about
No. 18 and c^^Ilect ends to binding
posts as shown in Fig. 2.
The core is made by pushing a small
nail through a piece of cork. It should
be made so that it will rise slowly when
placed under water. Some filing may
be necessary to get the weight just
right, but it should be remembered that
the buoyancy of the core can be ad-
justed after the parts are assembled, by
pressing the cork in the bottom of the
test tube. This causes compression
in the water so that some is forced into
the upper cork, reducing its displace-
ment and causing it to sink. The lower
cork is then slowly withdrawn, by
twisting, until the core slowly rises.
Connect the binding posts to a single
cell of battery — any kind will do, as a
slight current will answer. On com-
The instrument '
ready for use.
fill then be adjusted
pleting the circuit the core will de-
scend ; or put in a switch or push
button on one of the battery wires. If
the button be concealed where the op-
erator can reach it, the core will obey
his command to rise or fall, according
to his control of the current. This is
a mysterious looking instrument, the
core being moved without visible con-
nection to any other part.
GTo lubricate sheet metal mix 1 qt.
whale oil, 1 lb. white lead, 1 pt. water
and 3 oz. finest graphite. Apply with
a brush before the metal enters the
dies.
An Optical Top
One of the latest optical delusions,
and one not easy to explain, is Ben-
ham's color top. Cut out the black and
white disk shown in the figure, and
paste on a piece of stiff cardboard.
Trim the edges of the cardboard to
match the shape of the disk, and make
a pinhole in the center. Cut the pin
in half and push it through from the
under side until the head of the pin
touches the cardboard. Spin slowly
in a strong light and some of the lines
will appear colored. The colors appear
different to different people, and are
changed by reversing the rotation.
Card Trick with a Tapered Deck
Another simple trick to perform but
one not easily detected, is executed by
using a tapered deck of cards as shown
in Fig. 1. A cheap deck of cards is
evened up square, fastened in a vise
and planed along the edge in such a
manner that all the pack will be ta*
pered about A >"■ This taper is exag-
gerated in the illustration which shows
~"
A
A
♦
«
V
V
R,.(
f»2
Cuds Grom ■ Tapand Dtck
one card that has been turned end for
end.
It is evident that any card reversed
in this way can be easily separated
from the other cards in the pack, which
makes it possible to perform the fol-
lowing trick: The performer spreads
the cards out, fan-like, and asks an
observer to withdraw A card, which is
then replaced in any part of the pack.
After thoroughly shuffling the cards
the performer then holds the deck in
both hands behind his back and pro-
nouncing a few magic words, produces
the card selected in one hand and the
rest of the pack in the other. This is
accomplished by simply turning the
deck end for end while the observer
is looking at his card, thus bringing
the wide end of the selected card at
the narrow end of the pack when it
is replaced. The hands are placed be-
hind the back for a double purpose, as
the feat then seems more marvelous
and the observers are not allowed to
see how it is done.
In prize games, players having the
same score are frequently called upon
to cut for low to determine which shall
be the winner, but a fairer way is to
cut for high as a person familiar with
the trick shown in Fig. 8 can cut the
cards at the ace, deuce, or three spot,
nearly every time, especially if . the
deck is a new one. This is done by
simply pressing on the top of the deck
as shown, before cutting, thus causing
the increased ink surface of the high
cards to adhere to the adjacent ones.
A little practice will soon enable one
to cut low nearly every time, but the
cards must be grasped lightly and the
experiment should be performed with
a new deck to obtain successful results.
— Contributed by D. B. J., Chicago.
A Constant-Pressive Hydrogen
Generator
By fitting three bottles, A, B, C, with
rubber stoppers and connecting with
glass tubes as shown in
the sketch, hydrogen or
other gases produced in a
similar manner may be
generated under constant
pressure. In making
hydrogen, bottle B is part-
ly filled with zinc nodules
formed by slowly pouring
melted zinc into water.
Hydrochloric acid is then
poured in the small fun-
nel, thus partly filling
bottles A and C. When
the acid rising from C
comes in contact with the
zinc, hydrogen gas is gen-
erated and fills bottle B.
The gas continues to gen- ,
erate until the pressure is
sufficient to force the acid
back down the tube into ,
bottle C, when the action
ceases. As fast as the gas is used the
acid rises in the tube and generates '
more, thus keeping the pressure nearly
constant, the pressure depending on
the difference between the levels of the
acid in bottle A and bottle B, As this
device is easily upset, a ring-stand
should be used to prevent its being
broken, or if it is to be a permanent
apparatus it may be mounted on a
substantial wooden base. This appa-
ratus may also be used for preparing
acetylene gas or almost any gas which
ly v^<v.^v_'Vl^_
requires a mixture of a solid and liquid
in its preparation, — Contributed by C.
S. J., Detroit.
Restoring Tone to a Cracked Bell
Many a bell with a deadened tone
due to a cracked rim, can be given
its original clear ringing sound by saw-
ing out the crack with a common hack-
saw. Make the saw cut along the line
of the crack. The opening caused by
the saw will allow the free vibration
of the metal. — Contributed by F. W.
Bcntly, Jr., «uron, S. Dak.
How to Make a Paper Phonograph
Horn
Secure a piece of tubing about 1%
in. long that will fit the connection to
the reproducer, and wrap a quantity of
heavy thread around one end as shown
in the enlarged sketch A, Fig. 1. Form
a cone of heavy paper, 9
in. long and 3 in. in diam-
eter, at the larger end with
the smaller end to fit the
diameter of the tube A,
making it three-ply thick
and gluing the layers to-
gether. Attach this cone
on the tube A where the
thread has been wrapped
' with glue, as shown in Fig,
2. Fig. 3 is also an en-
larged sketch. Make ten
pieces about 1 ft. 10 in. in
' length and 3 in. wide from
the thin boards of a biscuit
or cracker box. Cut an arc
of a circle in them on a
radius of 2 ft (Fig. 3).
Make a 10-sided stick, IS in. long, that
will fit loosely in the tube A, to which
nail the 10 pieces as shown in Fig. 4,
connecting the bottom by cross pieces,
using care to keep them at equal dis-
tances apart and in a circle whose di-
ameter. is about 2 ft.
The cone ts placed over the stick as
shown by the dotted lines in Fig. 4 and
temporarily fastened in position. Cut
out paper sections (Fig. 5) that will
cover each space between the 10 pieces,
allowing 1 in, on one side and the top,
in which to cut slits that will form
pieces to overlap the next section and
to attach with glue. Fasten the sec-
tions all around in like manner. The
next course is put on in strips ovet^
lapping as shown at B, Fig. 6. Finish
by putting on sections in the same way
as the first course, making it three-ply
thick. Remove the form, trim to suit
and glue a piece of paper over the
edge. When the glue is thoroughly
hardened, put on two coats of white
and one of blue paint, shading it to
suit and striping it with gold bronze.
How to Make a Hygrometer
A homemade hygrometer, for deter-
mining the degree of moisture in the
atmosphere, is shown in the accompa-
nying sketch and consists of a board,
of PhaUDcniita Horn
A, with a nail at each end to hold the
silk thread B. A second piece of silk
thread, C, is tied to the center of B
and connects with an indicating hand
or pointer supported by the bracket D.
The axle on which the pointer revolves
consists of a piece of round wood, about
the size of a lead-pencil, with a pin
driven in each end. A piece of tin, E,
is cut V-shaped at each end and bent
up at the ends to form bearings for the
pins. The silk thread C is fastened
oog Ic
to the wooden axle and is wrapped one it firmly in the angle between the
or two turns around it, so that when
Tbe HifTometflT
the thread is pulled the pointer will
move on the scale. It will be noticed
that the thread B is not perfectly
straight, but bends toward D. For
this reason a very small shrinkage of
B, such as occurs when the atmosphere
is dry, will cause an increased move-
ment of C, which will be further in-
creased in the movement of the pointer.
An instrument of this kind is very in-
teresting and costs nothing to make, —
Contributed by Reader, Denver.
The Protection of a Spring Lock
After shutting the front door and
hearing the spring lock snap into its
socket, most people go off with a child-
like faith in the safety of their goods
and chattels. But the cold fact is that
there is scarcely any locking device
which affords less protection than the
ordinary spring lock. It is the sim-
plest thing in the world for a sneak-
thief to slip a thin knife between the
door-casing and the strip, push back
the bolt, and walk in.
Fortunately, it is equally easy to
block that trick. Take a narrow piece
of tin 3 or 4 in. long, bend it at right
angles throughout its length, and tack
casing and strip, so as to make it im-
possible to reach the bolt without tear-
ing off the strip.
Another way is to drive nails through
the strip at intervals of half an inch,
enough to protect the bolt from
being meddled with.
A Controller and Reverse for a
Battery Motor
Secure a cigar or starch, box and use
to make the base, B. Two wood-base
switches, S S, are cut off a little past
the center and fastened to the base
with a piece of wood between them.
The upper switch, S, is connected to
different equal points on a coil of wire,
W, while the lower switch, S, is con-
nected each point to a battery, as
shown. The reverse switch, R, is
made from two brass or copper strips
fastened at the top to the base with
screws and joined together by a piece
of hard rubber or wood with a small
handle attached. Connect wires A to
the armature and wires F to the field
of the motor. By this arrangement
one, two or three and so on up until
all the battery cells are used and dif-
ferent points of resistance secured on
the coil of wire. The reverse lever
when moved from right to left, or left
to right, changes the direction of the
armature in the motor from one way to
the other. — Contributed by J. Fremont
Hilscher, Jr.. West St. Paul, Minn.
Motor Reverie and CoDtralkr
C^iOOglc
How to Build a Grape Arbor
A grape arbor made of white pine,
put together as shown in the sketch,
will last for several years. The 2 by
OraiM-Arbar Trdlla
The cylinder A, Fig. 1, is an old
bicycle pump, cut in half. The steam
chest D, is part of the piston tube of
the same pump, the other parts being
used for the bearing B, and the crank
bearing C. The flywheel Q can be any
small-sized iron wheel; either an old
sewing-machine wheel, pulley wheel,
or anything available. We used a
wheel from an old high chair for our
engine. If the bore in the wheel is too
large for the shaft, it may be bushed
with 3 piece of hard wood. The shaft
is made of heavy steel wire, the size
of the hole in the bearing B.
The base is made of wood, and has
two wood blocks, H and K, % in. thick.
4-in. posts, A, are 7 ft. long. The feet,
B, are made 2 by 4 in., 4 ft. long, and
rest on a brick placed under each end.
How to Make a Toy Steam Engine
A toy engine can be easily made from
old implements which can be found in
nearly every house.
Valve HoUon and Com
to support bearing B, and valve crank
S, which is made of tin. The hose E
connects to the boiler, which will be
described later. The clips F F are
soldered to the cylinder and nailed to
the base, and the bearing B ts fastened
by staples.
The valve motion is shown in Figs.
2 and 3. In Fig. 3 the steam is enter-
ing the cylinder, and in Fig. 3 the valve
B has closed the steam inlet and opened
the exhaust, thus allowing the steam in
the cylinder to escape.
The piston is made of a stove bolt,
E, Fig. 2, with two washers, F F, and
a cylindrical piece of hard wood, G.
This is wound with soft string, as
shown in Fig. 3, and saturated with
thick oil. A slot is cut in the end of
the bolt E, to receive the connecting
rod H. The valve B is made of an old
lOOglc
bicycle spoke, C, with the nut cut in
half and hied down as shown, the space
between the two halves beings filled
with string and oiled.
The valve crank S, Fig. 1, is cut out
of tin, or galvanized iron, and is moved
by a small crank on the shaft. This
crank should be at right angles to the
main crank.
The boiler, Fig. 4, can be an old oil
can, powder can, or a syrup can with
a tube soldered to it, and is connected
to the engine fay a piece of rubber tub-
ing. The heat from a small gas stove
will furnish steam fast enough to run
the engine at high speed. This engine
was built by W. G. Schuh and A. J.
Eustice, of Cuba, Wis.
Writing with Electricity
Soak a piece of white paper in a so-
lution of potassium iodide and water
for about a minute and then lay it on
a piece of sheet metal. Connect the
sheet metal with the negative or zinc
side of a battery and then, using the
positive wire as a pen, write your name
or other inscription on the wet paper.
Blectromi' Wrltlo«
The result will be farown lines on a
white background. — Contributed by
Geo. W. Fry, San Jose, Cal.
To Photograph a Man in a Bottle
Neither a huge bottle nor a dwarfed
man is necessary for this process, as it
is merely a trick of photography, and
a very amusing trick, at that.
First, photograph the person to be
inclosed in the bottle against a dark
plain background and mark the exact
position on the ground glass. Let the
exposure be just long enough to show
the figure distinctly. Then place an
empty bottle against a dark background
and focus so as to have the outlines of
the bottle inclose those of the man.
Let this exposure be about twice the
length of the first, and the desired
result is obtained.
A Musical Windmill
Make two wheels out of tin. They
may be of any size, but wheel A must
be larger than wheel B. On wheel A
fasten two pieces of wood, C, to cross
in the center, and
place a bell on the
four ends, as
shown. The smaller
wheel, B, must
be separated from
the other with a
round piece of
wood, or an old
spool. Tie four
buttons with split rings to the smaller
wheel, B. The blades on the wheels
should be bent opposite on one wheel
from the others so as to make the
wheels turn in difEerent directions.
When turning, the buttons will strike
the bells and make them' ring con-
stantly.
Optical niusioDS
By giving the page a revolving or
rinsing motion the three circular fig-
ures printed on the next page appear
to rotate. The best effect will be pro-
duced by laying the book down flat on
the desic or table and revolving, first
l:v v^JV^.'v.'Vl^^
Hov* TtMW PlcnTM RwkUir
io one direction and then in the oppo-
site direction, in such a way that any
given point on the page will describe a
circle of about ^ in. diameter. Fig. 1
then appears to rotate in the same
direction as the revolution ; Fig. 2 ap-
pears to revolve in the opposite direc-
tion, and Fig. 3 appears to revolve
sometimes in the same direction and at
other times in the opposite direction.
A curious effect can be produced
with Fig. 1 by covering up Figs. 2 and
3 with a piece of plain paper and lay-
ing a coin or other small object on the
paper. If the vision is then concen-
trated on the coin or other object while
same is being revolved. Fig. 1 will be
seen to rotate.
Barrel-Stave Hammock
A hammock made of barrel staves
is more comfortable than one would
think, considering the nature of the
material employed in making it. Good
smooth staves should be selected for
this purpose, and if one cares to go to
a little trouble a thorough sandpaper-
ing will make a great improvement
Cut half circles out of each stave, as
shown at AA, and pass ropes around
the ends as shown at B. When finished /
the weight will then be supported by
four ropes at each end, which allows
the use of small-sized ropes, such as
clothes lines. A hammock of this kind
may be left out in the rain without in-
jury. — Contributed by H. G. M., St.
Louis, Mo.
A Singing Telephone
Those who have not already tried
the experiment may be interested to
know that a telephone may be made to
s'ng by holding the receiver adout A
in. from the transmitter, as shown in
the illustration. The experiment will
work well on most telephones, hut nut
on all.
When the receiver is placed in the
position shown it acts like an ordinary
buzzer, and the function of the trans-
mitter will then be that of an inter-
rupter. The slightest movement of
the transmitter diaphragm will cause
an increased movement of the receiver
diaphragm. This in turn will act on
the transmitter, thus setting up sympa-
thetic vibrations between the two,
which accounts for the sound.
lOOglc
A Microscope Without a Lens
By E. W. DAVIS
Nearly everyone has heard of the
pin-hole camera, but the fact that the
same principle can be used to make a
microscope, having a magnifying
power of 8 diameters (64 times) will
perhaps be new to some readers.
To make this lensless microscope,
procure a wooden spool, A (a short
spool, say ^ or % in. long, produces a
higher magnifying power), and enlarge
the bore a little at one end. Then
blacken the inside with india ink and
allow it to dry. From a piece of thtn
Detail of LaDilu* MkniKapa
transparent celluloid or mica, cut out a
small disk, B, and fasten to the end
having Jie enlarged bore, by means of
brads. On the other end glue a piece
of thin black cardboard, C, and at the
center, D, make a small hole with the
point of a fine needle. It is very im-
portant that the hole D should be very
small, otherwise the image will be
blurred.
To use this microscope, place a small
object on the transparent disk, which
may be moistened to make the object
adhere, and look through the hole D.
It is necessary to have a strong light
to get good results, and, as in all micro-
scopes of any power, the object should
be of a transparent nature.
The principle on which this instru-
ment works is illustrated in Fig. 2.
The apparent diameter of an object is
inversely proportional to its distance
from the eye, i. e., if the distance is
reduced to one-half, the diameter will
appear twice as large; if the distance is
reduced to one-third, the diameter will
appear three times as large, and so on.
As the nearest distance at whicji the
average person can see an object clearly
is about 6 in., it follows that the di-
ameter of an object % in. from the eye
would appear 8 times the normal size.
The object would then be magnified 8
diameters, or 64 times. (The area
would appear 64 times as large.) But
an object % in. from the eye appears so
blurred that none of the details are dis-
cernible, and it is for this reason that
the pin-hole is employed.
Viewed through this microscope, a
fly's wing appears as large as a per-
son's hand, held at arm's length, and
has the general appearance shown in
Fig. 3, The mother of vinegar exam-
ined in the same way is seen to be
swarming with a mass of wriggling
little worms, and may possibly cause
the observer to abstain from all salads
forever after. An innocent-looking
drop of water, in which hay has been
soaking for several days, reveals hun-
dreds of little infusoria, darting across
the field in every direction. These and
hundreds of other interesting objects
may be observed in this tittle instru-
ment, which costs little or nothing to
make.
How to Make a Telegraph Key and
Sounder
The sounder, Fig. 1, is made from an
old elcctric-bell magnet, D. fastened to
a wooden base. The lever, A, can be
made of brass and the armature, C, is
made of iron. The pivot, E, is made
from a wire nail and is soldered to A.
It should be filed to a point at each end
so as to move freely in the bearings, B,
which are pieces of hard wood.
The spring, H, is fastened at each
end by pins, bent as shown, and should
not be too strong or the magnet will be
unable to move the armature. The
ly V^JV_^V_'V1'
■a"
stop, K, is a wire nail driven deep
enough in the base to leave about ^
in. between the armature and the mag-
net. The binding posts, F, may be
taken from old dry batteries and are
connected to the two wires from the
magnet by wires run in grooves cut
in the base.
The base .of the key, Fig, 8, is also
made of wood and has two wooden
bearings, E, which are made to receive
a pivot, similar to the one used in the
sounder. The lever of the key is made
of brass and has a hardwood knob, A,
fastened near the end. A switch, D,
connects with the pivot at F and can
be either made from sheet brass, or
taken from a small one-point switch.
The binding posts are like those of
the sounder, and are connected to the
contacts, K, by wires run in grooves
cut in the wood
How to Make a Music Cabinet
A neat music cabinet can be made as
shown in the accompanying sketch.
Each side, A A, Fig. 1, is cut from a
board about 36 in. in length and 16 in.
wide. Both are alike and can be cut
from the same pattern. As the front
legs curve out a little the main body
of the boards A A should be 15 in,
wide. The back, B, should be about 22
in. long by 16 in, wide and set in be-
tween sides A A. Cut the top, C, 16
in. long and 14^ in. wide. The bot-
tom must be the same length as the
top and ISYz in. wide.
The door, D, can be made panel as
shown, or a single piece, 16 in, wide
and about 20 in. long. All material
used is to be made from boards that
will dress to % in. thick.
rf D to mU i HU, biodlnc ooMa
Hsw to Uaka a Uualc CaUoet
Shelving may be put in as shown in
Fig. 2 and made from J4-'n. material.
Make 12 cleats, E, 13^ in, long, from
a strip of wood ^ by % in., with a
groove % by Vi in- cut in them. Fasten
6 cleats evenly spaced oq the instde
of each of the sides, A A, with %-in,
brads. This will give seven spaces for
music and as the shelves are removable
two places can be made into one.
E^ily Made Wireless Coherer
A good wireless coherer may be made
with very littie expense, the only ma-
terials necessary being a glass tube,
two corks, a magnetized needle and a
quantity of iron and silver filings. Push
a piece of wire through one cork and
z: Iv^lOOglC
place in the bottom of the tube, as
shown in the sketch.
Pour in the Blings and insert the top
cork with the needle pushed through
from above. The point of the needle
should barely touch the filings and by
slightly agitating the tube the iron
filings will separate from the silver and
cling to the magnetized needle, as
shown.
In operation, the device must stand
on end and should be connected in the
circuit as shown in the sketch. When
the electrical waves strike the needle,
the conductivity of the filings is estab-
lished and a click is heard in the re-
ceiver. — Contributed by Carl Form-
hals, Garheld, 111.
One- Wire Telegraph Line
The accompanying wiring diagram
shows a telegraph system that requires
no switches and may be operated with
open-circuit batteries on a one- wire
Dlwrun sf One Win Lis*
line with ground connections at each
end. Any telegraph set in which the
key makes double contact can be con-
nected up in this way. — Contributed
by R. A. Brown, Fairport, N. Y.
How to Make a Water Rheostat
A water rheostat may be made by
fitting a brass tube with a " cork,
through which a piece of wire is passed.
The brass tube may be
an old bicycle hand
pump, A {see sketch),
filled with water. Push-
ing the wire, B, down
into the water increases
the surface in contact,
and thus decreases the
resistance. An appara-
tus of this kind is suit-
able for regulating the
current from an induc-
tion coil, when the coil
is not provided with a
regulator, and by using
a piece of pipe instead
of the tube, it can be
used to regulate the
speed of a motor.
When the pipe is
used, a piece of brass or copper rod
should be substituted for the wire, in
order to increase the surface. Adding
salt to the water will decrease the re-
sistance, and, when used with a motor,
will give a greater speed.— Contributed
by John Koehler, Ridgewood, N. J.
Electric Door-Opener
A very convenient and efficient de-
vice for unlocking any door fitted with
a spring lock is shown in the accom-
panying sketches. A fairly stiff spring,
A, is connected by a flexible wire cord
to the knob B, The cord is also fas-
tened to a lever, C, which is pivoted at
D and is released by a magnetic .trig-
ger, E, made from the armature and
magnet of an old electric bell.
When the circuit is completed by
means of a secret contact device out-
side the door, the magnet, F, pulls
down the armature, which releases the
trigger and allows the spring to open
the lock. If there are metal numbers
Water Kbeartat
l:V V^<V.^V_'V1^_
on the outside of the door they may be
used for the secret contact, if desired.
but if there are no numbers on the
door, a small contact-board may be
constructed by driving about 12 brass-
headed tacks into a thin piece of wood
and making connections at the back as
shown in the wiring diagram.
In this particular diagram the tacks
numbered 1 and 7 are used for unlock-
ing the door, the others being con-
nected with the electric-bell circuit as
indicated, for the purpose of giving an
alarm should anybody try to experi-
ment with the secret contacts. By
means of a pocket knife or other metal
article the operator can let himself in
at any time by connecting the tacks
numbered 1 and 7, while a person not
knowing the combination would be
liable to sound the alarm. Of course,
the builder of this device may choose
a combination of his own and may thus
prevent anybody else from entering
the door, even those who read this
description. — Contributed by Perry A.
Borden, Gachville, N. B.
Wlrlnc DlasTam
How to Tighten a Curtain-Roller
Spring
A common table fork can be used to
hold the little projection on the end of
a curtain roller for tightening the
spring. Hold the fork firmly with one
hand while turning the roller with the
other. Do not let go of the fork until
the little catches are set in position to
prevent the spring from turning, or else
the fork may be thrown off with dan-
gerous force.
Alarm Clock Chicken Feeder
An automatic poultry feeder, which
will discharge the necessary amount
of corn or other
feed at any de-
sired time, may be
made by using an
alarm clock as
shown in the'
sketch, A small
wire trigger rests
on the winding
key and supports
the swinging bot-
tom of the food
hopper by means
of a piece of string
which connects
the two. When
the alarm goes off
the trigger drops and allows the door
to open, thus discharging the contents
of the hopper.
After the device has been in opera-
tion for some time the hens will run
to the feeder whenever the bell rings.
— Contributed by Dr. H. A. Dobson,
Washington, D, C.
Homemade Disk-Record Cabinet
Select some boards that have a nice
grain and about 1 in. thick and 13 in.
wide. Cut the end pieces each 36 in.
long and trim down the edges so as to
make them 11% in. wide. The top
board is made 38 in. long and full 13
in. wide. The three shelves are cut
25 in. long and the edges trimmed so
they will be 11% in. wide. The dis-
tance between the bottom of the top
.mzocbyClOOglC
board and the top of the first shelf
should be 3 in. Two drawers are fitted
in this space, as shown in Fig- I. A
series of grooves are cut % in. wide.
and then through second hole and over
second notch and so on until E is
reached, where the other end of wire is
fastened. Connect switch to post B.
— Contributed by' Edmund Kuhn, Jr.,
East Orange, N. J.
CibLnrt Holdinf 33 Recorda
% in. deep and % in. apart on one side
of the top and bottom shelves, as
shown in Fig. 2, and on both sides of
the middle shelf. The shelves should
be spaced 9% in, for 10-in. records and
8% in. for 6-in. records. A neat scroll
design is cut from a board 25 in. long
to fill up and finish the space below the
bottom shelf.— Contributed by H. E.
Mangold, Compton, Cal.
A Battery Kheostat
In a board 7 in. long and 5 in. wide
bore holes about Vi in. apart, in a,semi-
circle 2 in.
Two binding-posts are placed in board
at A and B. With about 9 ft. of fine
iron wire attach one end to the bottom
of post A and run through first hole
and over in first notch to back of board
Automatic Time Switch
This device may be used to either
open or close the circuit at any desired
time. An alarm clock is firmly fast-
ened to a wooden bracket and provided
with a small wood or metal drum. A,
to which is fastened a cord, B. The
other end of the cord is tied to the
switch handle so that when the alarm
goes off the switch is either opened or
T
\6
^
n«.i \
fitl \
WUl Oiwa or CIom Circuit M Dcalnd
closed, depending on whether the cord
is passed over pulley C or pulley D.
When the cord is passed over pulley
C, as shown in Fig. 1, the circuit will
be closed when the alarm gees off, but
if it is passed over D the circuit will
be opened. Pulley D is fastened to a
piece of spring steel, E, which in ope-
ration is bent, as shown by the dotted
lines, thus causing the switch to snap
open quickly and prevent forming an
arc. — Contributed by Doug^ Royer,
Roanoke, Va.
d by Google
Hem to Hake a Rotary Pump
A simple rotary pump is constructed
on the principle o( creating a vacuum
in a rubber tube and so causing water
to rise to fill the vac-
uum. Figs. 3, 4 and 5
show all the parts
needed, excepting the
crank and tubing. The
dimensions and de-
scription given are for
a minimum pump, but
a larger one could be
built in proportion.
Through the center
of a block of wood 4 in.
square and % in. thick
(A, Figs. 1, 2 and 3)
saw a circular opening
2% in. in diameter. On
each side of this block
cut a larger circle 3Vi
in. in diameter, having
the same center as the
first circle (Fig. 3).
Cut the last circles only
^ in. deep, leaving the
first circle in the form
of a ridge or track %
in. wide, against which
the rubber tubing, E,
is compressed by
wheels. Bore two %-
in. holes (HH, Fig. 1)
from the outside of the
block to the edge of
the inner circle. Put
the rubber tube,' E,
through one of these
holes, pass it around the track and out
through the other hole. Notice the
break (S) in the track; this is neces-
sary in order to place in position the
piece holding the wheels.
Fig. 4 shows the wheel-holder, B.
Make it of hard wood 3^ in. long, 1 in.
wide and a little less than % in. thick,
so that it will run freely between the
sides (Fig. 5) when they are placed.
Cut two grooves, one in each end, 1 in.
deep and ^ in. wide. In these grooves
place wheels, CC, to turn on pins of
stout wire. These wheels should be
% in. in diameter. When placed in
the holder their centers must be exactly
2 in. apart, or so arranged that the dis-
tance between the edge of the wheels
PUWCTRty SmeSREMOVE D
and the track (K, Fig. 1) is equal to the
thickness of the tubing when pressed
flat. If the wheels fit too tightly,
they will bind ; if too loose, they will
let the air through. Bore a hole
through the middle of the wheel-holder
and insert the crankpin, D, which
should be about V2 in. in diameter.
The crankpin should fit tightly ; if
necessary drive a brad through to keep
it from slipping.
In the sides (Fig. 5) bore a hole in
the center of the crankpin to run in
loosely. Now put all these parts to-
lOOg Ic
gether, as shown in the illustration.
Do not fasten the sides too securely
until you have tried the device and are
sure it will run smoothly. For the
crank a bent piece of stout wire or a
nail will serve, though a small iron
wheel is better, as it gives steadiness
to the motion. In this case a handle
must be attached to the rim of the
wheel to serve as a crank. The drive
wheel from a broken-down eggbeater
will do nicely. For ease in handling
the pump, a platform should be added.
To use the pump, 611 the tube with
water and place the lower end of the
tube in a reservoir of water. Make a
nozzle of the end of a clay pipe stem
for the other end of the tube. Then
turn the crank from left to right. The
first wheel presses the air out of the
tube, creating a vacuum which is im-
mediately filled with water. Before
the first wheel releases the tube at the
top, the other wheel has reached the
bottom, this time pressing along the
water that was brought up by the first
wheel. If the motion of the wheels
is regular, the pump will give a steady
stream. Two feet of '^-in. tubing,
costing 10 cents, is all the expense nec-
essary, — Contributed by Dan H. Hub-
bard, Idana, Kan.
How to Hake a Fire Screen
A screen which will not interfere
with the radiation of the heat from
the fire, and will keep skirts and chil-
dren safe can be made at little expense
out of some strap iron. The screen
which is shown in Fig. 1, stands 30 in.
high from the base to the top cross-
piece and is made of % by %-in. and
^4 by %-in. iron. The top and bottom
pieces marked AA, Fig. 1, are %
by Vi in. and are 30 in. long, bent
at an angle to fit the fireplace 7
in. from each end, as shown in
Fig. 3. The three legs marked BBB,
Fig. 1, are of the same size iron and
each leg will take 34 in. of material.
In shaping the feet of these three pieces
give them a .slight tendency to lean
toward the fire or inside of screen, says
a correspondent in the Blacksmith and
Wheelwright, In the two cross bars
1 in. from each end, A in Fig. 2, mark
for hole and 3 in. from that mark the
next hole. Take the center of the bar,
B, 15 in. from each end, and mark for
a hole, and 3^ in. on each side mark
again and 3% in. beyond each of these
two, mark again.
Mark the legs S% in. from the bot-
tom and 8 in, from the top and after
making rivet-holes rivet them to the
cross bars, AA, Fig. 1.
Cut six pieces, 17V^ in. long and
punch holes to fit and rivet onto the
remaining holes in cross bars, AA, Fig.
1. Clean it up and give it a coat of
black Japan or dead black.
Trap for Small Animals
This is a box trap with glass sides
and back, the panes of glass being held
in place by brads
^placed on both sides.
]The animal does not
fear to enter the box,
because he can see
through it; when he
enters, however, and touches the bait
the lid is released and, dropping, shuts
him in. This is one of the easiest trarts
to build and is usually successful
jOOgIc
Homemade Grenet Battery
Procure ao ordinary carbon-zinc, sal-
ammoniac battery and remove the zinc
rod. If the battery has been used be-
fore, it is better to soak the carbon
cylinder for a few hours to remove any
remaining: crystals of sal ammoniac
from its pores.
The truncated, conical zinc required
is known as a fuller's zinc and can be
bought at any electrical supply dealer's,
or, it may be cast in a sand mold
from scrap zinc or the worn-out zinc
rods from sal-ammoniac batteries. It
shoald be cast on the end of a piece of
No. 14 copper vtrire. Amalgamation is
not necessary for the zinc one buys,
but if one casts his own zinc, it is nec-
essary to amalgamate it or coat it with
mercury. This may be done as follows:
Dip a piece of rag in a diluted so-
lution of sulphuric acid (water 16 parts,
acid 1 part J : rub the zinc well, at
the same time allowing a few drops of
mercury to laU on a spot attacked by
the acid. The mercury will adhere, and
if the Tubbii>5 is continued so as to
spread the mercury, it will cover the
entire surface of the zinc, giving it a
bright, silvery appearance.
Next procure what is known as a
wire connector. This is a piece of cop-
per tube about 1% in, long having two
thumb screws, one on each end on
opposite sides (Fig. 2). The upper
screw is to connect the battery wire,
the lower one to raise and lower the
zinc The battery is now complete,
and the solution (Fig. 1) must be pre-
pared. Proceed as follows:
In 33 oz. of water dissolve 4 oz.
potassium bichromate. When the bi-
chromate has all dissolved, add slowly,
stirring constantly, 4 oz. sulphuric
acid. Do not add the acid too quickly
or the heat generated may break the
vessel containing the solution. Then
pour the solution into the battery jar,
antil it is within 3 in. of the top.
Thread the wire holding thf zinc
through the porcelain insulator of the
carbon cylinder and also through the
' wire coQoector. Pull the zinc up as far
as it will go and tighten the lower
thumb screw so that it holds the wire
secure. Place the carbon in the jar.
If the solution touches the zinc, some
of it should be poured out. To de-
termine whether or not the zinc is
touched by the solution, take out the
carbon and lower the zinc. If it is wet,
there is too much liquid in the jar. The
battery is now ready for use.
To cause a flow of electricity, lower
the zinc until it almost touches the bot-
tom of the jar and connect an electric
DMtSU of HonWBwd* Baturr
bell or other electrical apparatus by
means of wires to the two binding
posts.
This battery when first set up gives
a current of about two volts. It is use-
ful for running induction coils, or small
electric motors. When through using
the battery, raise the zinc and tighten
the lower thumb screw. This prevents
the zinc wasting away when no cur-
rent is being used. — Contributed by H.
C. Meyer, fliiladelphia.
Door-Opener for Furnace
The accompanying diagram shows
an arrangement to open the coal door
of a furnace. When approaching the
furnace with a shovelful of coal it is
usually necessary to rest the shovel
on the top of the ash door, while the
coal door is being opened. With my
device it is only necessary to press the
foot pedal, which opens the door. Af-
hyCOOglC
ter putting in the coal, pressing the
pedal closes the door. The pulley in
the ceiling must be placed a tittle in
front of the door, in order to throw
the door open after lifting it from the
catch. A large gate hinge is used to
nold the pedal to the floor. — Contrib-
uted by Edward Whitney, Madison,
Wis.
How to Make an Efficient
Wireless Telegraph
By GEORGE W. RICHARDSON
A simple but very efficient wireless
telegraph may be constructed at slight
cost from the following description :
The sending apparatus consists of
nothing but an induction coil with a
telegraph key inserted in the primary
circuit, i. e., the battery circuit. This
apparatus may be purchased from any
electrical-supply house. The price of
the coil depends upon its size, and upon
the size depends the distance signals
can be transmitted. If, however, one
wishes to construct his own coil he can
make and use, with slight changes, the
jump-spark coil described elsewhere in
this book. This coJI, being a l-in. coil,
will transmit nicely up to a distance of
one mile; while a 12-in. coil made on
the same plan will transmit 20 miles or
even more under favorable conditions.
Change the coil described, as fol-
lows : Insert an ordinary telegraph
key in the battery circuit, and attach
two small pieces of wire with a brass
ball on each, by inserting them in the
binding-posts of the coil as shown at
B W. Of these two terminal wires
one is grounded to earth, while the
other wire is sent aloft and is called
the aerial line. This constitutes alt
there is to the sending apparatus.
Now for the receiving apparatus. In
the earlier receiving instruments a co-
herer was used, consisting of a glass
tube about ^-in. diameter, in which
were two silver pistons separated by
nickel and silver filings, in a partial
vacuum. This receiver was difficult of
adjustment and slow in transmission.
An instrument much less complicated
and inexpensive and which will work
well can be made thus :
Take a 5-cp. incandescent lamp and
break off the tip at the dotted line, as
shown in Fig. 5. This can be done by
giving the glass tip ^r point a qujck
blow with a file or other thin edged
piece of metal. Then with a blow-torch
heat the broken edges until red hot and
turn the edges in as seen in Fig. 6. Re-
move the carbon filament in the lamp
and bend the two small platinum wires
so they will point at each other as in
Fig. 6, W W. Screw the lamp into an
ordinary wall socket which will serve
as a base as in Fig. 7, Make a solution
of 1 part sulphuric acid to 4 parts of
water, and fill the lamp about two-
thirds full (Fig. 1). This will make an
excellent receiver. It will be necessary
to adjust the platinum points, W W, to
suit the distance the message is to be
worked. For a mile or less the points
should be about -it in. apart, and closer
for longer distances.
The tuning coil is simply a variable
choking coil, made of No, 14 insulated
copper wire wound on an iron core, as
shown in Fig. 7, After winding, care-
fully scrape the insulation from one
side of the coil, in a straight line from
top to bottom, the full length of the
coil, uncovering just enough to allow a
izccbyGOOgIC
good contact for the sliding piece. The
tuning is done by sliding the contact
piece, which is made
of light copper wire,
along the convolu-
tions of the tuning
coil until you can
\ hear the signals. The
1 signals are heard in
a telephone receiver,
which is shown con-
nected tn shunt across the binding*
posts of the lamp holder with one or
two cells of dry battery in circuit,
Fig. 7.
The aerial tine, No. 6 stranded, is run
post. A, to the ground and be sure to
make a good ground connection.
For simple experimental work on
distances of 100 ft. only, an ordinary
automobile spark coil can be used in
place of the more elaborate coil. Figs.
1 to 4.
The above-mentioned instruments
have no patents on them, and any one
is at liberty to build and use them. The
writer does not claim to be the origi-
nator, but simply illustrates the above
to show that, after all, wireless is very
simple when it is once understood. The
fundamental principles are that induc-
tion travels at right angles, 90'', to the
from binding-post B through the chok-
ing or tuning coil, and for best results
should extend up 50 ft. in the air. To
work a 20-mile distance the line should
be 100 or 150 ft. above the ground. A
good way is to erect a wooden pole on
a house or barn and carry the aerial
wire to the top and out to the end of a
gaff or arm.
To the end of the aerial wire fasten
a bunch of endless loops made of about
No. 14 magnet wire (bare or insulated),
attaching both ends to the leading or
aerial wire. The aerial wire should not
come nearer than 1 ft. at any point to
any metal which is grounded.
Run a wire from the other binding-
direction 6t the current. For an illus-
tration, if a person standing on a bridge
should drop a pebble into the water be-
low, after contact he would note circles
radiating out over the surface of the
water. These circles, being at right
angles, 90", to the direction of the force
that caused the circles, are analogous
to the flow of induction, and hence the
aerial line, being vertical, transmits
signals horizontally over the earth's
surface.
OWhen filling nail holes in yellow pine
use beeswax instead of putty, as it
matches the color well.
joglc
How to Make a Lathe
A small speed-lathe, suitable for
turning wood or smalt metal articles,
may be easily made at very little ex-
pense. A lathe of this kind is shown
in the cut (Fig. 1), where A is the
headstock, B the bed and C the tail-
stock. I run my lathe by power, using
an elef trie motor and countershaft, but
it could be run by footpower if desired.
A lai^e cone pulley would then be re-
quired, but this may be made in the
same manner as the small one, which
will be described later.
The bed of the machine is made of
bearing slightly by placing a piece of
cardboard on each side, just touching
the shaft. The edges which touch the
shaft should he notched like the teeth
of a saw, so as to allow the babbitt to
run into the lower half of the bearing.
The notches for this purpose may be
about Vs in. pitch and % in. deep.
Place pieces of wood against the ends
of the bearing as shown at A and B,
Fig. 4, and drill a hole in the top of
the bearing as shown in Fig. 4.
The bearing is then ready to be
poured. Heat the babbitt well, but
not hot enough to bum it, and it is well
wood as shown in Figs. 3 and 3, hard-
wood being preferable for this pur-
pose. Fig. 8 shows an end view of the
assembled bed, and Fig. 3 shows how
the ends are cut out to receive the side
pieces.
The headstock. Fig. 6, is fastened to
the bed by means of carriage bolts. A,
which pass through a piece of wood,
B, on the under side of the bed. The
shaft is made of M-in. steel tubing
about Vs in. thick, and runs in babbitt
bearings, one of which is shown in
Fig. 5.
To make these bearings, cut a square
hole in the wood as shown, making half
of the square in each half of the bear-
ing. Separate the two halves of the
to have the shaft hot, too, so that the
babbitt will not be chilled when it
strikes the shaft. If the shaft is thor-
oughly chalked or smokerf the babbitt
will not stick to it After pouring,, re-
move the shaft and split the bearing
with a round, tapered wooden pin. If
the bearing has been properly made,
it will split along the line of the
notched cardboard where the section
of the metal is smallest. Then drill a
hole in the top as shown at A, Fig. 5,
drilling just deep enough to have the
point of the drill appear at the lower
side. This cavity acts as an oil cup
and prevents the bearing from running
dry.
The bolts B (Fig. 5) are passed
lOOglc
throogh holes in the wood and screwed
into nuts C, which are let into holes
D, the holes afterward being filled
with melted lead.
This type of bearing will be found
very satisfactory and may be used to
advantage on other machines. After
the bearings are completed the cone
pulley can be placed on the shaft. To
make this pulley cut three circular
pieces of wood to the dimensions given
in Fig. 6 and fasten these together with
nails and glue. If not perfectly true,
they may be turned up after assem-
bling, by rigging up a temporary tool-
rest in front of the headstock.
The tailstock (Fig. 7) is fastened to
the bed in the same manner as the
headstock, except that thumb nuts are
used on the carriage bolts, thus allow-
ing the tailstock to be shifted when nec-
essary. The mechanism of the center
holder is obtained by using a %-in.
not satisfactory, so I had to buy one,
but they are inexpensive and much
handier than homemade tool rest. —
Contributed by Donald Reeves. Oak
Park, III.
To Use Old Battery Zincs
When the lower half of a battery
zinc becomes eaten away the remaining
part can be used again by suspending
It from a wire as shown in the cut. Be
sure and have a good connection at the
zinc binding post and cover that with
melted paraffin. This prevents corro-
sion, which would otherwise occur
from the action of the sal ammoniac or
other chemical. The wire may be held
at the top by twisting it around a piece
pipe, A, and a %-m. lock nut, B, em-
bedded in the wood,
I found that a wooden tool-rest was
Sbawlns ZIdg Suipanded
of wood or by driving a peg through
the hole in the porcelain insulator. —
Contributed by Louis Lauderbach.
Newark, N. J.
Callers* Approach Alarm
This alarm rings so that callers ap-
proaching the door may be seen before
they ring the bell and one can exercise
his pleasure about admitting them.
If one has a wooden walk, the alarm
is easy to fix up. Take up about 5 ft.
of the walk and nail it together so as
to make a trapdoor that will work
easily. Place a small spring under one
end to hold it up about ^ in, (A, Fig.
2). Nail a strip of tin along the under
side of the trap near the spring and
fasten another strip on the baseboard.
cbyGOOgIC
so that they will not touch, save when
a weight is on the trap. Connect up an
electric bell, putting the batteries and
bell anywhere desired, and using rub-
T^
Alatai RlDc* Whu Callar AppreulWB
ber-covered wire outside the house, and
the alarm is complete.
When a person approaching the
house steps on the trap, the bell will
ring and those in the house can see
who it is before the door bell rings. —
Contributed by R. S. Jackson, Minne-
apolis, Minn.
Easy Method of Electroplating
Before proceeding to electroplate
with copper, silver or other metal,
clean the articles thoroughly, as the
least spot of grease or dirt will prevent
BiKtroplatiac AppUBtna
the deposit from adhering. Then polish
Lhe articles and rub them over with
a cloth and fine pumice powder, to
roughen the surface slightly. Finally,
to remove all traces of grease, dip the
articles to be plated in a boiling potash
solution made by dissolving 4 oz.
American ash in lYz pt. of water. Do
not touch the work with the hands
again. To avoid touching it, hang the
articles on the wires, by which they
are to be suspended in the plating bath,
before dipping them in the potash so-
3 lution; then hold them by the wires
under running water for ten minutes
to completely remove every trace of
the potash.
For plating with copper prepare the
following solution: i oz. copper sul-
phate dissolved in 13 oz. water; add
strong ammonia solution until no more
green crystals are precipitated. Then
add more ammonia and stir until the
green crystals are re-dissolved giving
an intense blue solution. Add slowly
a- strong solution of potassium cyanide
until the blue color disappears, leaving
a clear solution ; add potassium cyanide
again, about one-fourth as much in
bulk as used in the decolorizing
process. Then make the solution up
to 3 qt. with water. With an electric
pressure of 3.5 to 4 volts, this will give
an even deposit of copper on the arti-
cle being plated.
A solution for silverplating may be
prepared as follows: Dissolve % oz. of
commercial silver nitrate in 8 oz. of
water, and slowly add a strong solution
of potassium cyanide until no more
white precipitate is thrown down. Then
pour the liquid off and wash the prt-
cipitate carefully. This is best done by
filling the bottle with water, shaking,
allowing precipitate to settle and then
pouring off the water. Repeat six
times. Having finished washing the
precipitate, slowly add to it a solution
of potassium cyanide until all the pre-
cipitate is dissolved. Then add an ex-
cess of potassium cyanide — about as
much as was used in dissolving the pre-
cipitate — and make the solution up to
1 qt. with water. This solution, with
an electric pressure of 8 to 4 volts, will
give a good white coat of silver in
twenty minutes to half-an-hour ; use
izccbyGOOgIC
S volts for large articles, and 4 volts
for very small ones. If more solution
is required, it is only necessary to
double all ^ven quantities.
Before silverplating, such metals as
iron, lead, pewter, zinc, must be coated
with copper in the alkaline copper bath
described, and then treated as copper.
On brass, copper, German silver, nickel
and such metals, silver can be plated
direct The deposit of silver will be
dull and must be polished. The best
method is to use a revolving scratch
brush ; if one does not possess a bufHng
machine, a hand scratch brush is good.
Take quick, light strokes. Polish tiie
articles finally with ordinary plate
powder.
The sketch shows how to Suspend the
articles in the plating-bath. If accumu-
lators are used, which is advised, be
sure to connect the positive (or red)
terminal to the piece of silver hang-
ing in the bath, and the negative (or
black) terminal to the article to be
plated. Where Bunsen cells are used,
the carbon terminal takes the place of
the positive terminal of the accumu-
lator. — Model Eneineer.
An Ingenious Electric Lock for a
Sliding Door
The apparatus shown in Fig. 1 not
only unlocks, but opens the door, also,
by simply pressing the key in the key-
bole.
In rigging it to a sliding door, the
materials required are : Three flat pul-
leys, an old electric bell or buzzer,
about 35 ft. of clothesline rope and
some No. 18 wire. The wooden catch,
A (Fig. 1), must be about 1 in. thick
and S in. long; B should be of the Si>me
wood, 10 in. long, with the pivot 2 in.
from the lower end. The wooden block
C, which is held by catch B, can be
made of a 3-in. piece of broomstick.
Drill a hole through the center of this
block for the rope to pass through, and
fasten it to the rope with a little tire
tape.
When all this is set up, as shown in
Fig. 1, make a key and keyhole. A Yt-
in bolt or a large nail sharpened to a
pc int, as at F, Fig. 3, will serve for the
key. To provide the keyhole, saw a
piice of wood, I, 1 in. thick by 3 in.
square, and bore a hole to fit the key
in the center. Make a somewhat larger
block (E, Fig. 3) of thin wood with
a ^-in. hole in its center. On one
side of this block tack a piece of tin
(K, Fig. 3) directly over the hole.
Screw the two blocks together, being
careful to bring the holes opposite each
other. Then, when the point of the key
touches the tin, and the larger part
(F, Fig. 3) strikes the bent wire L, a
circuit is completed ; the buzzer knocks
catch A (Fig. 1), which rises at tJ.e
opposite end and allows catch B to fly
forward and release the piece of broom-
stick C. The weight D then falls and
jerks up the hook-lock M, which un-
locks the door, and the heavier weight
N immediately opens it.
Thus, with a switch as in Fig. 3, the
door can only be opened by the person
who has the key, for the circuit cannot
be closed with an ordinary nail or wire.
B, Fig. 8, shows catch B, Fig. 1, en-
larged ; O, Fig. 8, is the cut through
which the rope runs; H, Fig. 1, is an
elastic that snaps the catch back into
.,z: Iv^iOOglC
olace, and at G the wires run outside
to the keyhole.
This arrangement is very convenient
when one is carrying something in one
hand and can only use the other. Clos-
ing the door winds up the apparatus
again. — Contributed by E, H. Klip-
stein, 116 Prospect St, East Orange,
New Jersey. '
Parlor Magic for Winter Evenings
By C. H. CLAUDY
You are seated in a parlor at night,
with the lights turned low. In froDt
of you, between the parlor and the
room back of it, is an upright
square of brightly burning
. lights, surrounding a per-
j_^ fectly black space. The ma-
r\\ ■ gictan stands in front of this,
|,h L in his shirt sleeves, and after
"^ — *" a few words of introduction
proceeds to show the won-
ders of his magic cave.
Showing you plainly that both hands
are empty, he points with one finger to
the box, where immediately appears a
small white china bowl. Holding his
empty hand over this bowl, some
oranges and apples drop from his
empty hand into the bowl. He removes
the bowl from the black box, or cave,
and hands its contents round to the
audience. Receiving the bowl again,
he tosses it into the cave, but it never
reaches the floor — it disappears in mid-
air.
The illusions he shows you are too
many to retail at length. Objects ap-
pear and disappear. Heavy metal ob-
jects, such as forks, spoons and jack-
knives, which have been shown to the
audience and which can have no strings
attached to them, fly about in the box
at the will of the operator. One thing
changes to another and back again, and
black art reigns supreme.
Now all this "magic" is very simple
and requires no more skill to prepare
or execute than any clever boy or girl
of fourteen may possess. It is based
on the performance of the famous Her-
mann, and relies on a principle of op-
tics for its success. To prepare such a
magic cave, the requisites are a large
soap box, a few simple tools, some
black paint, some black cloth, and
plenty of candles.
The box must be altered hrst. One
end is removed, and a slit, one-third
of the length from the remaining end,
cut in one side. This slit should be
as long as the width of the box and
about hve inches wide. On either side
of the box, half way from open end to
closed end, should be cut a hole, just
large enough to comfortably admit a
hand and arm.
Next, the box should be painted
black both inside and out, and finally
lined inside with black cloth. This
lining must be done neatly — no folds '
must show and no heads of tacks. The
interior must be a dead black. The
box is painted black first so that the
cloth used need not be very heavy ; but
if the cloth be sufficiently thick, no
painting inside is required. The whole
inside is to be cloth-lined, floor, top,
sides and end.
Next, the illumination in front must
be arranged. If you can have a
plumber make you a square frame of
gas-piping, with tiny holes all along it
for the gas to escape and be lit, and
connect this by means of a rubber tube
to the gas in the house, so much the
better ; but a plentiful supply of short
candles will do just as well, although
a little more trouble. The candles
must be close together and arranged
on little brackets around the whole
front of the "cave" (see small cut),
and should have little pieces of bright
tin behind them, to throw the light
toward the audience. The whole func-
tion of these candles is to dazzle the
eyes of the spectators, heighten the
illusion, and prevent them seeing very
far into the black box.
Finally, you must have an assistant,
who must be provided with either
black gloves or black bags to go over
his hands and arms, and several black
drop curtains, attached to sticks greater
in length than the width of the box,
l:v v^JV..'v_'Vl^_
which are let down through the slit
in the top.
The audience room should have only
low lights ; the room where the cave is
should be dark, and if you can drape
portieres between two rooms around
the box (which, of course, is on a ta-
ble) so much the better.
The whole secret of the trick lies in
the fact that if tight be turned away
from anything black, into the eyes of
him who looks, Jhe much fainter light
reflected from the black surface will
not affect the observer's eye. Conse-
quently, if, when the exhibitor puts
his hand in the cave, his confederate be-
hind inserts his hand, covered with a
black glove and holding a small bag of
black cloth, in which are oranges and
apples, and pours them from the bag
into a dish, the audience sees the or-
anges and apples appear, but does not
see the black arm and bag against the
black background.
The dish appears by having been
placed in position behind a black cur-
tain, which is snatched swiftly away
at the proper moment by the assistant.
Any article thrown into the cave and
caught by the black hand and con-
cealed by a black cloth seems to dis-
appear. Any object not too large can
be made to "levitate" by the same
means. A picture of any one present
may be made to change into a grinning
skeleton by suddenly screening it with
a dropped curtain, while another cur-
tain is swiftly removed from over a
pasteboard skeleton, which can be
made to dance either by strings, or by
the black veiled hand holding on to it
from behind, and the skeleton can
change to a white cat.
But illusions suggest themselves.
There is no end to the effects which
can be had from this simple apparatus,
and if the operators are sufficiently
well drilled the result is truly remark-
able to the uninitiated. The illusion,
as presented by Hermann, was identi-
cal with this, only he, of course, had
a big stage, and people clothed in black
to creep about and do his bidding.
while here the power behind the throne
is but a black-veiled hand and arm. It
can be made even more complicated by
having two assistants, one on each side
of the box, and this is the reason why
it was advised that two holes be cut.
This enables an absolutely instantane-
ous change as one uncovers the object
at the moment the second assistant
covers and removes the other.
TtM Mxic Cava
It is important that the assistants
remain invisible throughout, and if por-
tieres are impossible, a screen must be
used. But any boy ingenious enough
to follow these simple instructions will
not need to be told that the whole suc-
cess of the exhibition depends upon the
absolute failure of the audience to
understand that there is more than one
concerned in bringing about the curi-
ous effects which are seen. The ex-
hibitor should be a boy who can talk ;
a good "patter" — as the magicians call
it — is often of more value than a whole
host of mechanical effects and helpers.
It is essential that the exhibitor and
his confederate be well drilled, so that
lOOglc
the latter can produce the proper ef-
fects at the proper cue from the former.
Finally, never give an exhibition with
the "cave" until you have watched the
illusions from the front yourself; so
that you can determine whether every-
thing connected with the draping is
right, or whether son^e stray bit of
light reveals what you wish to conceal.
Reversing-Switcb for Electrical
Experiments
A homemade reversing-switch, suit-
able for use by students of electrical
and engineering courses in performing
experiments, is shown in the diagram.
Referring to Fig. 1, A represents a
pine board 4 in. by 4 in. and a is a cir-
cular piece of wood about Yi in, square,
with three brass strips, b', b", b', held
down on it by two terminals, or bind-
ing posts, c*, c^, and a common screw.
d. Post c* is connected to d by means
of an insulated wire, making them
carry the same kind of current ( -H iu
the sketch).
About the center piece H moves a
lisk, held down by another disk F (Fig.
i), which is fastened through the cen-
ter piece to the wooden base. A, by
means of two wood screws. On the
disk G are two brass strips, e* and e',
so arranged that, when handle K is
turned to one side, their one end just
slips under the strips b', b', or b^, b*,
respectively, making contact with
them, as shown in Fig. 2, at L, while
their other ends slide in two half-
circular brass plates P, P, held down
on disk F by two other terminals,
c*, c*, making contact with them as
shown at y, Fig. 2.
The action of the switch is shown in
Fig. 1. Connect terminal c' to the car-
bon of a battery, and c^ to the zinc.
Then, if you turn handle K to the right,
60 that the strips e* and e' touch b'
and b*, respectively, terminal c' will
show +, and c' — electricity; vice
versa, if you turn the handle to the
left so that e' and e^ touch b* and
b', respectively, terminal c^ will show
— , and c* -|- electricity.
The switch is easy to make and of
very neat appearance.
How to Receive Wireless Tdegraph
Messages with a Telephone
Any telephone having carbon in the
transmitter (all ordinary telephones
have carbon transmitters) can be used
to receive wireless messages by simply
making a few changes tn the connec- ,
tions and providing a suitable antenna.
Connect the transmitter and receiver
in Series with three dry cells and run
one wire from the transmitter to the
antenna. Connect the other transmit-
ter wire to a water or gas pipe in order
to ground it, and then hold the re-
ceiver to your ear. Any wireless tele-
graph message within a radius of one
mile will cause the transmitter to act
as a coherer, thus making the message
audible in the receiver.
By using an ordinary telephone
transmitter and receiver and a V^in.
jump spark coil, a complete wireless
telegraph station may be made, which
will send or receive messages for a
radius of one mile. The accompanytngr
wiring diagram shows how to make the
connections. By putting in an extra
ly v^<v.^v_'Vl^_
switch three of the sending batteries
may be switched in when receiving.
thus obviating the necessity of an extra
set of batteries. — Contributed by A. E.
Joerin,
Connecting Up Batteries to Give Any
Voltage
Referring to the illustration : A is
a five-point switch (may be home-
made) ; B is a one-point switch, and C
and C are binding posts. When
switch B is closed and A is on No. 1,
yoa have the current of one battery;
when A is on No. S you receive the
curr.ent from two batteries; when on
No, 3, from three batteries ; when
on No, 4, from four batteries, and when
on No. 5, from five batteries. More
batteries may be connected to each
point of switch B.
I have been using the same method
for my water rheostat (homemade).
I have the jars of water where the bat-
teries are and the current coming in at
a and b. — Contributed by Eugene F,
Tuttle, Jr., Newark, Ohio.
A Simple Accelerometer
A simple accelerometer for indicat-
ing the increase in speed of a train was
described by Mr. A. P. Trotter in a
paper read before the Junior
Institution of Engineers of
Great Britain. The device
consists of an ordinary 2-ft,
rule. A, with a piece of
thread tied to the 32-in.
mark, as shown in the
sketch, and supporting the
small weight, B, which may
be a button or other small
object.
The device thus arranged,
and placed on the window-
sill of the car, will indicate
the acceleration and retardation as fol-
lows: Every Yz in. traveled by the
thread, over the bent portion of the
rule, indicates an increase of or de-
crease of velocity to the extent of 1 ft,
per second for each second. Thus, if
the thread moved 2^ in. in a direction
opposite to the movement of the train,
then the train would be increasing its
speed at the rate of 4^4 ft. per second
If the thread is tied at the 17-in.
mark, then each half inch will repre-
sent the mile per hour increase for each
second. Thus if the thread moves 1 in.,
it shows that the train is gaining S
miles an hour each second.
An Egg-Shell Funnel
Bottles having small neck; are hard
to fill without spilling the liquid. A
funnel cannot be used in a small
opening, and pouring with a grad-
uate glass requires a steady hand.
When you do not have a graduate
Digitiz
cbyGOOgIC
at hand, a half egg-shell with a small
hole pricked in the end will serve better
than a funnel. Place the shell in an
oven to brown the surface slightly and
it will be less brittle and last much
longer. — Contributed by Maurice Bau-
drer, New Orleans, La.
Handy Electric Alann
An electric alarm which one may
turn off from the bed without arising
combined with a light which may be
turned on and off from a lying position,
so one can see the time, is the device of
H. E. Redmond, of Burlington, Wis.
The alarm clock rests on a shelf, A,
I set the garbage-can on some blocks
of wood, being careful not to have it
touch the ground at any point. I next
ran a wire from the other pole of the
sfy.i
# 1
-1
mrt
H«Ddr Elsctrlc Alann
which has a piece of metal, B, fastened
in such a position that the metal rod C,
soldered to the alarm winder, will com-
plete the circuit and ring the bell. The
two-point switch D is closed normally
at E, but may be closed at F any time
desired, thus turning on the small in-
candescent light G, which illuminates
the face of the clock. When the alarm
goes off, the bell will continue to ring
until the switch is opened.
To Keep Dogs and Cats Away from
the Garbage-Can
Last summer I was annoyed a great
deal by dogs upsetting our garbage-
can on the lawn, but finally executed
a plan that rid the yard of them in one
afternoon.
I first secured a magneto out of an
old telephone, then drove a spike in a
damp place under the porch, attached
• wire to the spike and ran the wire to
one of the poles of the magneto. Then
4^
magneto to the can, wrapping the wire
around the can several times. Then I
sat down on the porch to wait.
It was not long before a big grey-
hound came along, putting his fore-
paws on the top of the can to upset it.
At the same instant I gave the mag-
neto a quick turn, which sent the dog
away a very surprised animal. This
was repeated several times during the
afternoon with other dogs, and wiUi
the same result. — Contributed by Gor-
don T. Lane, Crifton, Pa.
How to Cross a Stream on a Log
When crossing a water course on a
fence rail or small tog, do not face up
or down the stream and walk side-
ways, for a wetting is the inevitable
result. Instead, fix the eye on the
opposite shore and walk steadily
forward. Then if a mishap comes, you
will fall with one leg and arm en-
circling the bridge. — C. C. S.
Relay Made from Electric Bell
It is not necessary to remove the ad-
justing-screw when changing an elec-
tric bell into a relay.
' Simply twist it around
as at A and bend the
circuit-breaking con-
tact back as shown.
It may be necessary
111 I to remove the head of
j /f ""^^^ the screw. A, to pre-
(o\ f5\ ^^"* short-circuiting
^ ^ with the armatui;e. —
Contributed by A. I* Macey, Ifew
j^ ^ /T\ trie b
U ^r? .i c^Sa circui
York City.
d by Google
Foundry Work at Home
L Tfa« Bqnlpmefit
Many amateur mechanics who re-
quire small metal castings in their
work would like to make their own
castings. This can easily be done at
home without going to
any great expense, and
the variety and useful-
ness of the articles pro-
duced will make the
equipment a good in-
vestment.
With the easily made
devices about to be de-
scribed, the young me-
chanic can make his
own telegraph keys and
sounders, battery zincs,
binding posts, engines,
cannons, bearings,
small machinery parts,
models and miniature
objects, ornaments of
various kinds, and du-
plicates of all these, and many other
interesting and useful articles.
The first thing to make is a molding-
bench, as shown in Fig. 1. It is possi-
ble to make molds without a bench, but
it is a mistake to try to do this, as the
sand is sure to get on the floor, whence
it is soon tracked into the house. The
bench' will also make the operation of
molding much easier and will prove to
be a great convenience.
The bench should be made of lumber
about 1 in. thick and should be con-
structed in the form of a trough, as
shown. Two cleats, A A, should be
nailed to the front and back to support
the cross-boards, BB, which in turn
support the mold while it is being
made. The object of using the cleats
and removable cross-boards instead of
a stationary shelf is to give access to
the sand, C, when it is being prepared.
About one or two cubic feet of fine
molding-sand will be required, which
may be purchased at the nearest foun-
dry for a small sum. Yellow sand will
be found a little better for the ama-
teur's work than the black sand gener-
ally used in most foundries, but if no
yellow sand can be obtained the black
kind will do. If there is no foundry
near at hand, try using sand from other
sources, giving preference to the finest
sand and that which clings together in
a cake when compressed between the
hands. Common lake or river sand is
not suitable for the purpose, as it is too
coarse and will not make a good mold.
For mixing and preparing the sand
a small shovel, D, and a sieve, E, will
be required. If desired the sieve may
be homemade. Ordinary wire netting
such as is used in screen doors, is about
the right mesh, and this, nailed to re-
place the bottom of a box, makes a very
good sieve.
The rammer, F, is made of wood, and
is wedge-shaped at one end and flat at
the other, as shown. In foundries each
molder generally uses two rammers,
but for the small work which will be
described one will be sufficient An
old teaspoon, G, will be found useful
tn the molding operations and may be
hung on the wall or other convenient
place when not in use.
The cloth bag, H, which can be made
lOOglc
of a knitted stocking, is filled with coal-
dust, which is used for a parting me-
dium in making the molds. Take a
small lump of soft coal and reduce to
powder by pounding. Screen out all
the coarse pieces and put the remainder
in the bag. A slight shake of the bag
Fl(. 3— Homenuda FlMk
over the mold will then cause a cloud of
coal-dust to fall on it, thus preventing
the two layers of sand from sticking,
but this operation will be described
more fully later on.
The flask, J, Fig. 1, is shown more
clearly in Fig. 2. It is made of wood
and is in two halves, the "cope," or up-
per half, and the "drag," or lower part.
A good way to make the flask is to
take a box, say 12 in. by 8 in. by 6
in. high, and saw it in half longitudin-
ally, as shown. If the box is not very
strong, the corners should be braced
with triangular wooden strips, A A,
which should be nailed in, previous to
sawing. The wooden strips B B are
used to hold the sand, which would
otherwise slide out of the flask when
the two halves of the mold are sepa-
rated.
The dowels, CC, are a very impor-
tant part of the flask as upon them de-
pends the matching of the two halves
of the mold. A wedge-shaped piece,
CC, is nailed to each end of the cope,
and the lower pieces, DD, are then
nailed on the drag so that they just
touch C when the flask is closed. The
two halves of the flask will then occupy
exactly the same relative position
whenever they are put together.
After the flask is done make two
boards as shown at K, Fig. 1, a little
larger than the outside of the flask.
A couple of cleats nailed to each board
will make it easier to pick up the mold
when it is on the floor.
A cast-iron glue-pot make^ a very
good crucible for melting the metal,
which can be either aluminum, white
metal, zinc or any other metal having
a low melting-point. This completes
the equipment with the exception of
one or two simple devices which will
now be described.
n— How to M>kB ■ Hold
Having finished making the flask and
other equipment, as described, every-
thing will be ready for the operation of
molding. It would be well for those
who have never had any experience in
this line to visit a small brass foundry,
where they can watch the molders at
work, as it is much easier to learn by
observation ; but they must not expect
to make a good mold at the first trial.
The first attempt usually results in the
sand dropping out of the cope when it
is being lifted from the drag, either be-
cause of insufficient ramming around
the edges or because the sand is too
dry,
A good way to tell when the sand is
moist enough is to squeeze it in the
hand. If it forms into a cake and
shows all the finger-marks, it has a suf-
ficient amount of moisture, but if it
crumbles or fails to cake it is too dry.
An ordinary watering-pot will be found
useful in moistening the sand, but care
should be taken not to get it too wet.
or the hot metal coming in contact
with it when the mold is poured will
cause such rapid evaporation that the
mold will "boil" and make a poor cast-
ing. A little practice in this operation
will soon enable the molder to deter-
mine the correct amount of moisture.
When molding with sand for the first
time it will be necessary to screen it all
l:v v^JV.^v_'Vl^_
before using it, in order to remove
the iumps, and if water is added, the
sand should be thoroughly shoveled
until the moisture is evenly distributed.
The sand is then ready for molding.
The operation of making a mold is
as follows: The lower half of the
flask, or "drag," and the pattern to be
molded are both placed on the cover
board as shown at A. A quantity of
sand sufficient to completely cover the
pattern is then sifted into the drag,
which is then filled level with the top
with unscreened sand. This is
rammed down slightly with the ram-
mer, and then more sand is added until
ming, pound evenly all over the sur-
face with the blunt end of the rammer.
After ramming, scrape off the sur-
plus sand with a straight-edged stick,
as shown at C, and scatter about -^ in.
of loose sand over the surface for a
good bearing. Place another cover
board on top, as shown at D, and by
grasping with both hands, as shown,
turn the drag other side up. Remove
the upper cover board and place the
upper half of the flask, or "cope," in
position, as shown at E.
In order to prevent the two layers of
sand sticking together, the surface of
the sand at E should be covered with
^^
it becomes heaped up as shown at B
It is then rammed again as before
It is impossible to describe just how
hard a mold should be rammed, but by
observing the results the beginner can
tell when a mold is too hard or too
soft, and thus judge for himself. If
the sand falls out of the flask when
lifting the cope, or if it opens up or
spreads after it is poured, tt shows that
the mold has been rammed too little,
and if the surface of the sand next to
the pattern is cracked it shows that the
mold has been rammed too hard. It
will be found that the edges of the
mold can stand a little more ramming
than the middle. In finishing the ram-
coal-dust This is done by shaking the
coal-dust bag over the flask, after
which the dust on the pattern may be
removed by blowing. The cope is then
filled with sand and rammed in exactly
the same manner as in the case of the
drag.
After the ramming is done a number
of vent holes are made, as shown at
F, from the surface of the mold to the
pattern, in order to allow the escape
of air and steam when the mold is be-
ing poured. These vent holes may be
made by pushing a wire about the size
of a knitting-needle down through the
sand until it touches the pattern. The
"sprue," or pouring^hole, is next cut.
by means of the sprue-cutter shown at
the right, which consists ol a piece of
thin brass or steel tubing about % in.
in diameter.
Now comes the critical part of the
molding operation — that of lifting the
cope from the drag. It is here that
the amateur often becomes discouraged,
as the sand is liable to fall out of the
cope and spoil the mold; but with a
little practice and patience the molder
can lift the cope every time without
breaking it, as shown at G,
The next operation is that of cutting
the gate, which carries the molten
metal from the sprue to the opening
left by the pattern. This is done with
a spoon, a channel being cut about %
in. wide and about Vi in. deep. The
pattern is then drawn from the mold,
as shown at H, by driving 4 sharp-
pointed steel rod into the pattern and
lifting it from the sand. When a metal
pattern is used a thread rod is used,
which is screwed into a tapped hole
in the pattern. Before drawing it is
well to tap the drawing-rod lightly
with another and larger rod, striking
it in all directions and thus loosening
the sand slightly from the pattern.
Some moldera tap the pattern gently
when withdrawing, as shown at H, in
order to loosen any sand which has a
tendency to stick.
After drawing the pattern, place the
cope back on the drag, as shown at J.
Place a brick or other flat, heavy ob-
ject on top of the mold above the pat-
tern, to prevent the pressure of the
melted metal separating the two halves
of the mold, and then pour.
Ill— Melting and Pouring
Having prepared one or more molds,
the next operation is that of melting
and pouring. An ordinary cast-iron
glue-pot makes a good crucible and can
be easily handled by a pair of tongs,
made out of steel rod, as shown in the
sketch. In order to hold the tongs to-
gether a small link can be slipped on
over the handle, thus holding the cru-
cible securely.
A second piece of steel rod bent in
the form of a hook at the end is very
useful for supporting the weight of the
crucible and prevents spilling the
molten metal should the tongs slip off
the crucible. The hook is also useful
for removing the crucible from the fire,
which should be done soon after the
metal is entirely melted, in order to
prevent overheating. The metal should
be poured into the mold in a small
stream, to give the air a chance to es-
cape, and should not be poured di-
rectly into the center of the opening,
as the metal will then strike the bottom
hard enough to loosen the sand, thus
making a dirty casting.
Fif, 4 — PourlDc Uie Meul
If, after being poured, the mold sput-
ters and emits large volumes of steam,
it shows that the sand is too wet, and
the castings in such cases will probably
be imperfect and full of holes.
A mold made in the manner pre-
viously described may be poured with
any desired metal, but a metal which is
easily melted will give the least trou-
ble. One of the easiest metals to melt
and one which makes very attractive
castings is pure tin. Tin melts at a
temperature slightly above the melting
point of solder, and, although some-
what expensive, the permanent bright-
ness and silverlike appearance of the
castings is very desirable. A good
"white metal" may be made by mix-
ing 75% tin, 15% lead, 5% zinc and
5% antimony. The object of adding
antimony to an alloy is to prevent
shrinkage when cooling.
iv^iOOglc
A very economical alloy is made by
melting up all the old type-metal, bab-
bitt, battery zincs, white metal and
other scrap available, and adding a lit-
tle antimony if the metal shrinks too
much in cooling. If a good furnace is
available, aluminum can be melted
without any difficulty, although this
metal melts at a higher temperature
than any of the metals previously men-
tioned.
In casting zincs for batteries a sepa-
rate crucible, used only for zinc, is very
desirable, as the presence of a very
small amount of lead or other impurity
will cause the batteries to polarize. A
very good way to make the binding
posts is to remove the binding posts
from worn-out dry batteries and place
them in the molds in such a way that
the melted zinc will flow around them.
The time required for a casting to
solidify varies with the size and shape
of the casting, but unless the pattern
is a very large one about five minutes
will be ample time for it to set. The
casting is then dumped out of the mold
and the sand brushed oif. The gate
can be removed with either a cold
chisel or a hacksaw, and the casting is
then ready for finishing.
Battery Switch
In cases where batteries are used in
series and it is desirable to change the
strength and direction
of the current fre-
quently, the following
^g^ll^ device will be found
ilBlM most convenient. . In
BPtI® my own case I used
four batteries, but
any reasonable num-
. ber may be used. Re-
I I ~| ferring to the figure,
•^r~J it will be seen that
"*- I by moving the switch
A toward the left the
current can be reduced from four bat-
teries to none, and then by moving
the switch B toward the ri^ght the cur-
rent can be turned on in the opposite
direction to the desired strength. In
the various positions of these two
switches the current from each indi-
vidual cell, or from any adjacent pair
of cells, may be used in either direc-
tion. — Contributed by Harold S. Mor-
ton, Minneapolis.
An Optical niuaion
The engraving shows a perfectly
straight boxwood rule laid over a num-
ber of turned brass rings of various
sizes. Although the effect in the illus-
tration is less pronounced than it was
in reality, it will be noticed that the
rule appears to be bent, but sighting
along the rule from one end will show
that it is perfectly straight
The brass rings also appear distorted.
The portions on one side of the
rule do not appear to be a continua-
tion of those on the other, but that
they really are can be proved by sight-
ing in the same manner as before. —
Contributed by Draughtsman, Chicago.
New Method of Lifting a Table
To perform this feat effectively the
little device illustrated will be required.
To make it take a sheet-iron band. A,
% in. wide and attach a strap to fasten
on the forearm between
the wrist and elbow. Put
a sharp needle point, B,
through the sheet-iron so «
that it extends % in. out- L
ward. Make one of these
pieces for each arm.
In lifting the table first
show the hands unpre-
pared to the audience and also a light
table, removing the cover to show that
the surface of the table is not prepared
in any way. Then replace the table.
lOOglc
rest the hands upon it and at the same
time press the needle points in the arm
pieces into the wood of the table, which
will be sufficient to hold it, says a
correspondent of the Sphinx. Then
walk down among the audience.
How to Make a Paddle Boat
A rowboat has several disadvantages.
The operation of the oars is both tire-
some and uninteresting, and the oars-
man is obliged to travel backward.
PaddlB Bom in Opcntloo
By replacing the oars with paddles, as
shown in the illustration, the operator
can see where he is going and enjoy
the exercise much better than with
oars. He can easily steer the boat
with his feet, by means of a pivoted
stick in the bottom of the boat, con-
nected by cords to the rudder.
At the blacksmith shop have a %-in.
shaft made, as shown at A, Fig. 2. It
will be necessary to furnish a sketch
giving all the dimensions of the
shaft, which should be designed
to suit the dimensions of the
boat, taking care that sufficient
clearance is allowed, so that the
cranks in revolving will not
strike the operator's knees. If
desired, split-wood handles may
be placed on the cranks, to pre-
vent them from rubbing the
hands.
The bearings, B, may be made
of hardwood, but preferably of iron
pipe filled with melted babbitt. If
babbitt is used, either thoroughly
smoke or chalk the shaft or wrap paper
around it to prevent the babbitt stick-
ing. The pieces of pipe may be then
fastened to the boat by means of small
pipe straps, such as may be obtained
at any plumber's at a very small cost.
The hubs, C, should be made ot
wood, drilled to fit the shaft and mor-
tised out to hold the paddles, D. The
covers, E, may be constructed of thin
wood or galvanized iron and should be
braced by triangular boards, as shown
in Fig. 1. If galvanized iron is used,
it should be exposed to the weather
two or three months before painting,
or the paint will come off, spoiling its
appearance.
Peculiar Properties of Ice
Of all the boys who make snowballs
probably few know what occurs during
the process. Under ordinary condi-
tions water turns to ice when the tem-
perature falls to 32", but when in mo-
tion, or under pressure, much lower
temperatures are required to make it a
solid. In the same way, ice which is
somewhat below the freezing point can
be made liquid by applying pressure,
and will remain liquid until the pres-
sure is removed, when it will again re-
turn to its original state. Snow, being
simply finely divided ice, becomes
liquid in places when compressed by
the hands, and when the pressure is
removed the liquid portions solidify
and unite all the particles in one mass.
In extremely cold weather it is almost
Detail of P«ldl* BoM
impossible to make a snowball, be-
cause a greater amount of pressure
is then required to make the snow
liquid.
This process of melting antl freezing
under different pressures and a con-
stant temperature is well illustrated
by the experiment shown in Figs. 1, 2
and 3. A block of ice. A, Fig. 1, is sup-
l:v v^<v.^v_'Vl^_
T-J?*l
^ ^3,
BxpariBMDt with ■ Block of lea
ported at each end by boxes BB, and
a weight, W, is hung on a wire loop
which passes around the ice as shown.
The pressure of the wire will then melt
the ice and allow the wire to sink down
through the ice as shown in Fig. 8,
The wire will continue to cut its way
through the ice until it passes all the
way through the piece, as shown in
Fig. 3, This experiment not only il-
lustrates how ice melts under pressure,
but also how it solidifies when the pres-
sure is removed, for the block will still
be left in one piece after the wire has
passed through.
Another peculiar property of ice is
its tendency to flow. It may seem
strange that ice should flow like water,
but the glaciers of Switzerland and
other countries are literally rivers of
ice. The snow which accumulates on
the mountains in vast quantities is
turned to ice as a result of the enor-
mous pressure caused by its own
weight, and flows through the natural
channels it has made in the rock until
it reaches the valley below. In flow-
ing through these channels it fre-
quently passes around bends, and when
two branches come together the bodies
of ice unite the same as water would
under the same conditions. The rate
of flow is often very slow; sometimes
only one or two feet a day, but, no
matter how slow the motion may be,
the large body of ice has to bend in
nioving.
This property of ice is hard to illus-
trate with the substance itself, but may
be clearly shown by sealing-wax, which
resembles ice in this respect. Any at-
tempt to bend a piece of cold sealing-
wax with the hands results in break-
ing it, but by placing it between books,
as shown on page 65, or supporting
it in some similar way, it will grad-
ually change from the original shape
A, and assume the shape shown at B.
Return-CaU BeU With One Wire
To use only one wire for a return-
call bell connect up as shown in the
diagram, tising a closed circuit or grav-
ity battery, B. The current is flowing
through both bells all the time, the
same as the coils of a telegraph
sounder, but is not strong enough to
ring both connected in series. Pressing
Wlrinc Dlacnm
either push button, P, makes a short
circuit of that bell and rings the one at
the other end of the line.— Contributed
by Gordon T, Lane, Crafton, Pa.
Circuit Breaker for Induction Coils
Amateurs building induction coils
are generally bothered by the vibrator
contacts blackening, thus giving a high
resistance contact, whenever there is
any connection made at all. This
trouble may be done away with by de-
parting from the old single-contact vi-
brator and using one with self-cleaning
.,:z:cbv^jOOglC
contacts as shown. An old bell mag- water wheel. Some of our readers may
net is rewound full of No. 26 double wish to try the scheme when camping
cotton-covered wire and is mounted out. The success depends upon a slow
current, for a fast-turning wheel will
burn the meat.
iiiiliiiii l f r~
TWIT I I
Intermpter tor toduetloa Coll
upon one end of a piece of thin sheet
iron 1 in. by 5 in. as per sketch. To
the other end of the strip of iron is sol-
dered a piece of brass 1/64 in. by % in.
by 3 in., on each end of which has been
soldered a patch of platinum foil Vt in.
square.
The whole is connected up and
mounted on a baseboard as per sketch,
the contact posts being of -^ in. by ^
in. brass, bent into shape and provided
' with platinum tipped thumb screws.
The advantage of this style of an in-
terrupter is that at each stroke there is
a wiping effect at the heavy current
contact which automatically cleans off
any carbon deposit.
In the wiring diagram, A is the cir-
cuit breaker; B, the induction coil, and
C, the battery. — Contributed by A. G.
Ward, Wilkinsburg, Pa.
Spit Turned by Water Power
Many of the Bulgarian peasants do
their cooking in the open air over bon-
fires. The illustration shows a labor-
saving machine in use which enables
the cook to go away and leave meat
roasting for an hour at a time. The
A Short-Distance Wireless Telegraph
The accompanying diagrams show a
wireless-telegraph system that I have
used successfully for signaling a dis-
tance of 3,000 ft. The transmitter con-
sists of an induction coil, about the
size used for automobiles, a key or
push-button for completing the circuit,
and five dry batteries. The small sin-
gle-point switch is left open as shown
when sending a message, but when
receiving it should be closed in order
that the electric waves from the an-
tenna may pass through the coherer-
The coherer in this case is simply two
electric-light carbons sharpened to a
wedge at one end with a needle con-
For ■ Sammsr Ciras
illustration shows how the spit to
which the meat is fastened is constantly
turned by means of a slowly moving
WlrlDK Dtacnm fat WlnUM TU^npfa
necting the two, as shown. An ordi-
nary telephone receiver is connected
in series with the coherer, as shown.
To receive messages hold the receiver
to the ear and close the switch, and an-
swer by opening the switch and operat-
ing the key. — Contributed by Coulson
Click, Indianapolis.
Automatic Draft-Opener
A simple apparatus that will open
the draft of the furnace at any hour
desired is illustrated. The parts are:
A, furnace; B, draft; C, draft chain;
D, pulleys; E, wooden supports; F,
vertical lever; G, horizontal lever; H,
lOOglc
cord; I, alarm clock; J, weight, K
shows where and how the draft is reg-
ulated during the day, the automatic
Dcaft Rtcnlator
device being used to open it early in
the morning. The spool on the alarm
clock is fastened to the alarm key by
sawing a slit across the top of the
spool and gluing it on. When the
alarm goes off a cord is wound up on
the spool and pulls the horizontal lever
up, which releases the vertical lever and
allows the weight to pull the draft
open. — Contributed by Gordon Davis,
Kalamazoo, Mich.
A Window Congenratory
During the winter months, where
house plants are kept in the home, it
is always a question how to arrange
them so they can get the
necessary light without oc-
cupying too much room.
The sketch shows how a
neat window conservatory
may be made at small cost
that can be fastened on the
house just covering a win-
dow, which will provide a
fine place for the plants. The
frame (Fig. 8) is made of
about 2 by 2-in. material
framed together as shown in
Fig. 3. This frame should
be made with the three
openings of such a size that
a four-paned sash, such as
used for a storm window,
win fit nicely in them. If the four ver-
tical pieces that are shown in Fig. 2
are dressed to the right angle, then it
will be easy to put on the linishing cor-
ner boards that hold the sash.
The top, as well as the bottom, is
constructed with two small pieces like
the rafters, on which is nailed the
sheathing boards and then the shingles
on top and the finishing boards on the
bottom.
How to Make an Electroscope
An electroscope for detecting electri-
fied bodies may be made out of a piece
of note paper, a cork and a needle.
Push the needle into the cork, and cut
the paper in the shape of a small ar-
row. Balance the arrow on the needle
as shown in the sketch, and the instru-
ment will then be complete. If a piece
of paper is then heated over a lamp or
stove and rubbed with a piece of cloth
or a small broom, the arrow will turn
when the paper is brought near it. —
Contributed by Wm. W. Grant, Hali-
fax, N. S., Canada.
dbyGOOgIC
Miniature Electric Lighting
Producing electric light by means of
small bulbs that give from one-half to
six candle power, and a suitable source
of power, is something that will inter-
est the average American boy.
These circular bulbs range from ^
to 2 ia. in diameter, and cost 3? cents
each complete with base. They are
commonly known as miniature battery
bulbs, since a battery is the most popu-
lar source of power. The V^-cp. bulbs
are usually 2% volts and take Vt
ampere of current. It requires about
three medium dry cells to operate it.
However, there is now upon the
market a battery consisting of 3 small
dry cells connected in series, put up
in a neat case with 2 binding posts,
which sells for 25 cents. This is more
economical than dry cells, as it gives
about 4 volts and 3 amperes. It will
run as large a lamp ds 3^/^ volts, 1 cp.,
for some time very satisfactorily. More
than one tamp can be run by connect-
ing the bulbs in parallel, as indicated
by Fig. 1, which shows the special bat-
tery with 3 dry cells in the case, and
the 2 binding posts for connection with
the bulbs. In this case it is also ad-
visable to connect several batteries in
parallel also, so as to increase the cur-
rent, but maintain the voltage constant.
Thus, the individual cells are in multi-
ple series, i. e., multiples of series of
three. By keeping in mind the ampere
output of the battery and rating of the
lamp, one can regulate the batteries as
required. It must be remembered, in
this connection, that any battery which
is drawn upon for half of its output will
last approximately three times as long,
as if drawn upon for its total output.
Thus, in any system of lamps, it is
economical to provide twice as many
batteries as necessary. This also sup-
plies a means of still maintaining the
candle power when the batteries are
partially exhausted, by connecting
them in series. However, this must be
done with very great caution, as the
lights will be burnt out if the voltage
is too high.
Persons living in the city will find an
economical means of lighting lamps by
securing exhausted batteries from any
garage, where they are glad to have
them taken away. A certain number
of these, after a rest, can be connected
up in series, and will give the proper
voltage.
In conclusion, for battery power:
Connecting batteries in series increases
the voltage, and slightlj- cuts down the
current or amperage, which is the same
as that of one battery; while connect-
ing batteries in parallel increases the
amperage, but holds the voltage the
same as that of one cell. Thus, if the
voltage and amperage of any cell be
known, by the proper combination of
these, we can secure the required volt-
age and amperage to light any minia-
ture lamp. And it might be said that
dry cells are the best for this purpose,
especially those of low internal resist-
ance.
For those having a good water sup-
ply there is a more economical means
of maintenance, although the first cost
is greater. Fig. 2 shows the scheme.
A small dynamo driven by a water
motor attached to a faucet, generates
the power for the lights. The cost of
the smallest outfit of the kind is about
$3 for the water motor and H for the
izccbyGOOgIC
dynamo. This dynamo has an output
of 12 watts, and will produce from 18
to 25 cp., according to the water pres-
sure obtainable. It is advisable to
install the outfit in the basement,
where the water pressure is the great-
est, and then lead No. 18 B & S. double-
insulated wire wherever needed. The
dynamo can also be used as a motor.
and is wound for any voltage up to
ten. The winding should correspond
to the voltage of the lamps which you
desire to run. However, if wound for
6 volts, one could run parallel series of
■two 3-volt, 1-cp. lamps; making, as in
Fig. 3, 11 series, or 23 lights, if wound
for 10 volts, it would give 1\4 amperes
and run four 6-cp. lamps. Thus, it will
be seen that any candle power lamp
can be operated by putting the proper
number of lights in each series, and
running the series in parallel. So, to
secure light by this method, we simply
turn on the water, and the water con-
sumption is not so great as might be
imagined.
For the party who has electric light
in his house there is still an easier solu-
tion for the problem of power. If the
lighting circuit gives 110 volts he can
connect eleven 10-volt lamps in series.
These will give 3 cp. each, and the
whole set of 11 will take one ampere
of current, and cost about the same as
a 32-cp. lamp or IV4 cents per hour.
Simply conncrt the miniature circuit
to an Edison plug, and insert in the
nearest lamp iocket. Any number of
different candle power lamps can be
used providing each lamp takes the
same amount of current, and the sum
of their voltages equals the voltage of
the circuit used. This arrangement of
small lights is used to produce a widely
distributed, and diffused light in a
room, for display of show cases, and
for Christmas trees. Of all these
sources of power the two last are the
most economical, and the latter of these
two has in its favor the small initial
cost. These lamps are by no means
playthings or experiments, but are as
serviceable and practical as the larger
lamps. — Contributed by Lindsay El-
dridge, Chicago.
How to Make a New Language
Anyone possessing a phonograph can
try a very interesting and amusing ex-
periment without going to any ex-
pense. Remove the belt and replace
with a longer one, which can be made
of narrow braid or a number of strands
of yarn. The new belt should be long
enough to allow crossing it, thus re-
versing the machine. This reverses
every sound on the record and changes
it to such an extent that very few words
can be recognized:
How to Mak« a Cup-and-Saucer Rack
The rack is made of any suitable
kind of wood, and the sides, A, are cut
just alike, or from one pattern. The
shelves are made in
various widths to
fit the sides at the
places where they
are wanted. The
number of shelves
can be varied and
to suit the size of
the dishes. Cup
hooks are placed on top and bottom
shelves. It is hung 'in the wall the
same as a picture isrni the molding.
— Contributed by F. B. Emig, Santa
Clara, Cal.
Reversing a Small Motor
All that is necessary for reversing the
motor is a pole-changing switch. Con-
nect the two middle posts of the switch
with each other and the two outside
posts with each other. Then connect
one of the outside posts of the switch
to one brush of the motor and one
middle post to the other brush.
Connect one bar of the switch to one
iv^iOOglc
end of the field coil and the other bar
to one pole of the battery, and connect
the other pole of the battery to the
other field coil. To reverse the motor,
simply change the switch.
To unlock the door, merely piish the
button E. The magnet then draws the
armature out of the screw eye and the
door is unlocked. The dotted line at
D shows the position of the armature
when the circuit is complete and the
door unlocked. The weight must be
in proportion to the strength of the
magnet. If it is not, the door will not
Referring to the illustration , the
letters indicate as follows : FF, field of
motor; BB, brushes of motor; AA,
bars of pole-changing switch ; DD, cen-
ter points of switch ; CC, outside points
of switch. — Contributed by Leonard E.
Parker, Plymouth, Ind,
To Drive Away Dogs
The dogs in my neighborhood used
to come around picking up scraps.
After I connected up my induction coil,
as shown in the sketch, we were not
bothered with them. A indicates the
ground ; B, switch ; and C, a bait of
meat, or a tempting bone. — Contrib-
AntBiIutlc Elactris Lock lor Doon
lock, or would remain locked. The but-
ton can be hidden, as it ts the key to
the lock. — Contributed by Claude B.
Melchior Hutchinson, Minn,
Shockinc-UachiiM
uted by Geo. W. Fry, 903 Vine St., San
Jose, Cal.
An Automatic Lock
The illustration shows an automatic
lock operated by electricity, one cell
being sufficient. When the circuit is
broken a weight, A, attached to the end
of the armature B, tends to push the
other end of the armature into the
screw eye or hook C, which is in the
door, thus locking the door.
Experiment wttli Two-Foot Rule
and Hammer
An example of unstable equilibrium
is shown in the accompanying sketch.
Ail that is needed is a 2-(oot rule, a
hammer, a piece of string, and a table
or bench. The experiment works best
IZ.rli^jOOglC
with a hammer having a light handle
and a very heavy head.
Tie the ends of the string together,
forming a loop, and pass this around
the hammer handle and rule. Then
place the apparatus on the edge of the
table, where it will remain suspended
as shown. — Contributed by Geo. P.
Schmidt, Culebra, Porto Rico, W. I.
Simple Cun:ent Reverser
On a block of hardwood draw a
square (Fig. 1) and drill a hole in each
corner of the square. Fill these holes
■with mercury and connect them to four
binding posts (Fig. 1).
On another block of wood fasten two
wires, as shown in Fig. S, so that their
ends can be placed in the holes in the
first block. Then connect up with the
2^
Datkil* of Reverwr
motor and battery as in Fig. 3. When
the block is placed on with the big
arrow A pointing in the direction in-
dicated in Fig, 3, the current flows with
the small arrows. To reverse turn
through an angle of 90 degrees (Fig.
4). — Contributed by F. Crawford
Curry, Brockville, Ontario, Canada.
is placed under the key G of the alarm
clock. When the alarm rings in the
early morning, the key turns, the stick
Antomatic TJinm Draft-OpaiMr
falls away, releasing the weight, which
pulls the dfaft open. — Contributed by
Edward Whitney, 18 Gorham St.,
Madison, Wis.
How to Transmit Phonograph Music
to a Distance
An interesting experiment, and one
calculated to mystify any one not in
the secret, is to transmit the music or
speech from a phonograph to another
part of the house or even a greater dis-
tance. For an outdoor summer party
the music can be made to come from a
bush, or tree, or from a bed of flowers.
The apparatus is not difficult to con-
struct.
The cut shows the arrangement. Pro-
cure a long-distance telephone trans-
mitter, D, including the mouthpiece,
and fasten it to the reproducer of the
phonograph. Also a watch case re-
Alarm Clock to Pull up Furnace Draft
A stout cord. A, is attached to the
draft B of the furnace, run through a
pulley, C, in the ceiling and has a win-
dow weight, D, attached at the other
end. A small stick is put through a
loop in the cord at about the level of
the table top on which the alarm clock
F stands. The other end of stick E
TiM LoDf-Dlataiics PbmostBpta
iOOglc
ceiver, R, which fasten to the horn.
These parts may be parchased from
aiiy electrical-supply house. Connect
two wires to the transmitter, running^
one direct to the receiver, and the other
to the battery, thence to a switch, S,
and then to the receiver. The more
batteries used the louder will be the
sound produced by the horn, but avoid
using too much battery or the receiver
is apt to heat. — Contributed by Wm.
J. Farley, Jr., Camden, N. J.
How to Hake a Telescope
With a telescope like the one here
described, made with his own hands,
a farmer boy not many years ago dis-
covered a comet which had escaped the
watchful eyes of many astronomers.
First, get two pieces of plate glass,
6 in. square and 1 in. thick, and break
the corners off to make them round,
grinding the rough edges on a grind-
stone. Use a barrel to work on, and
fasten one glass on the top of it in the
center by driving three small nails at
the sides to hold it in place. Fasten,
with pitch, a round 4-in. block of wood
in the center on one side of the other
glass to serve as a handle.
Use wet grain emerv for coarse
grinding. Take a pinch and spread
it evenly on the glass which is on the
barrel, then take the glass with the
handle and move it back and forth
across the lower glass, while walking
around the barrel ; also rotate the
glass, which is necessary to make it
grind evenly. The upper glass or spec-
ulum always becomes concave, and
the under glass or tool convex.
Work with straight strokes 5 or 6
in. in length ; after working 5 hours
hold the speculum in the sunshine and
throw the rays of the sun onto a
paper; where the rays come to a point
gives the focal length. If the glabs is
not ground enough to bring the rays
to a point within 5 ft,, the coarse
grinding must be continued, unless a
longer focal length is wanted.
Have ready six large dishes, then
take 2 lb. flour emery and mix in 12
qt. of water; immediately turn the
water into a clean dish and let settle
30 seconds; then turn it into another
dish and let settle 2 minutes, then 8
minutes, 30 minutes and 90 minutes,
being careful not to turn off the
coarser emery which has settled. When
dry, turn the emery from the 5 jars
into 6 separate bottles, and label. Then
take a little of the coarsest powder,
wetting it to the consistency of cream,
and spread on the glass, work as be-
fore (using short straight strokes 1^
or 2 in.) until the holes in the glass
left by the grain emery are ground
out ; next use the finer grades until the
pits left by each coarser grade are
ground out. When the two last
grades arc used shorten the strokes to
less than 2 in. When done the glass
should be semi-transparent, and is
ready for polishing.
When polishing the speculum, paste
a strip of paper 1% in. wide around
the convex glass or tool, melt 1 lb. of
pitch and turn on to it and press with
the wet speculum. Mold the pitch
while hot into squares of 1 in., with
*/4-in. spaces, as in Fig. 1. Then warm
and press again with the speculum,
being careful to have all the squares
l:v v^JV.^v_'Vlv_
touch the speculum, or it will not pol-
ish evenly. Trim the paper from the
edge with a sharp knife, and paint tne
squares separately with jeweler's rouge,
wet till soft like paint. Use a binger
to spread it on with. Work the spec-
ulum over the tool the same as when
grinding, using straight strokes 2 in.
or less.
When the glass is polished enough
to reflect some light, it should be tested
with the knife-edge test. In a dark
room, set the speculum against the
wall, and a large lamp, L, Fig. 2, twice
the focal length away. Place a large
sheet of pasteboard. A, Fig. S, with a
smalt needle hole opposite the blaze,
by the side of the lamp, so the light
>• ^H ■
from the blaze will shine onto the glass.
Place the speculum S, Ftg. 2, so the
rays from the needle hole will be
thrown to the left side of the lamp
(facing the speculum), with the knife
mounted in a block of wood and edge-
ways to the lamp, as in K, Fig. 8. The
knife should not be more than 6 in.
from the lamp. Now move the knife
across the rays from left to right, and
look at the speculum with the eye on
the right side of the blade. When the
focus is found, if the speculum is
ground and polished evenly it will
darken evenly over the surface as the
knife shuts off the light from the
needle hole. If not, the speculum will
show some dark rings, or hills. If the
glass seems to have a deep hollow in
the center, shorter strokes should be
used in polishing; if a hill in' the cen-
ter, longer strokes. The polishing and
testing done, the speculum is ready to
be silvered. Two glass or earthen-
ware dishes, large enough to hold the
speculum and 2 in. deep, must be pro~
cured. With pitch, cement a strip of
board 8 in. long to the back of the spec-
ulum, and lay the speculum face down
in one of the dishes; fill the dish
with distilled water, and clean the face
of the speculum with nitric acid, un-
til the water yrill stick to it in an un-
broken film.
The recipe for silvering the speculum
is:
SolDtlOD A ■■
Dliljlled waUt '..-. 4 oi.
Silninllnre 100 fr.
Solution B:
Diullledmlw 4Dr.
CaQitic(tlckpatub(pwebr •Icobol) 100 tr.
Solnllon C:
SolDlioD D;
Santloul MUgt-
Nitric acid 79 «t.
Alcohol Ipan) 2S cr.
Mix solution D and n.ake up to 25
fluid oz. with distilled water, pour into
a bottle and carefully put away in a
safe place for future use, as it works
better when old.
Now take solution A and set aside
in a small bottle one-tenth of it, and
pour the rest into the empty dish ; add
the ammonia solution drop by drop;
a dark brown precipitate will form and
subside ; stop adding ammonia solution
as soon as the bath clears. Then add
solution B, then ammonia until bath is
clear. Now add enough of the solution
A, that was set aside, to bring the bath
to a warm saffron color without de-
stroying its transparency. Then add t
02. of solution D and stir until bath
grows dark. Place the speculum, face
down, in the bath and leave until the
silver rises, then raise the speculum and
rinse with distilled water. The small
flat mirror may be silvered the same
way. When dry, the silver film may
be polished with a piece of chamois
skin, touched with rouge, the polish-
ing being accomplished by means of a .
light spiral stroke.
Fig. 3 shows the position of the
glasses in the tube, also how the rays
R from a star are thrown to the eye-
piece E in the side of the tube. Make
jOOgIc
the tube I of sheet iron, cover with
paper and cloth, then paint to make a
non-conductor of heat or cold. Make
the mounting of good seasoned lumber.
Thus an excellent 6-in. telescope can
be made at home, with an outlay of only
a few dollars. My telescope is 61 in.
long and cost me just $15, but I used
all my spare time in one winter in mak-
ing it. I first began studying the
heavens through a spyglass, but an in-
strument such as I desired would cost
$200 — more than I could afford. Then
I made the one described, with which
I discovered a new comet not before
observed by astronomers. — John E.
Mellish.
How to Make "Freak" Photographs
The "freak" pictures of well-known
people which were used by some daily
newspapers recently made
everybody wonder how
the distorted photographs
were made. A writer in
Camera Craft gives the
secret, which proves to be
easy of execution. The
distortion is accomplished
by the use of prisms, as
follows: Secure from an
optician or leaded-glass establish-
ment, two glass prisms, slightly wider
than the lens mount. The flatter they
are the less they will distort. About
20 deg. is a satisfactory angle. Secure
them as shown by the sectional sketch,
using strawboard and black paper.
Then make a ring to fit over the lens
mount and connect it with the prisms
in such a way as to exclude all light
from the camera except that which
passes through the face of the prisms.
The inner surface of this hood must be
dull black. The paper which comes
around plates answers nicely. If the
ring which slips over the lens mount
is lined with black velvet, it will ex-
clude all light and hold firmly to the
mount» Place over lens, stop down
well after focusing, and proceed as for
any picture.
Another Electric Lock
The details of the construction of an
electrically operated lock are shown in
the illustration. When the door is
closed and the bolt A pushed into posi-
r^
simple Blactric Lode
tion, it automatically locks. To unlock,
push the button D, which act will cause
the electromagnet to raise the latch C,
when the bolt may be drawn and the
door opened. — Contributed hy A. D.
Zimmerman, Boody, III.
How to Mix Plaster of Paris
For the mixing of plaster of Paris
for any purpose, add the plaster grad-
ually to the water, instead of the con-
trary, says the Master Painter. Do
not stir it, just sprinkle it in until you
have a creamy mass without lumps.
Equal parts of plaster and water is
approximately the correct proportion.
The addition of a little vinegar or glue
water will retard the setting of the
plaster, but will not preserve its hard-
ening. Marshmallow powder also re-
tards the setting. In this way the
plaster may be handled a long time
without getting hard. If you wish the
l:v v^JV.^v_'Vl^_
plaster to set extra hard, then add a
little sulphate of potash, or powdered
alum.
Enlarging with a Hand Camera
Everyone who owns a hand
has some pictures he would like en-
larged. It is not necessary to have a
large camera to do this, as the process
is exceedingly simple to
make large pictures from
small negatives with the
same hand camera.
A room from which all
light may be excluded and
a window through which
the light can enter without
obstruction from trees or
nearby buildings, with a
shelf to hold the camera
and a table with an up- ^i
right drawing-board at-
tached, complete the arrangement.
The back is taken out of the camera
and fitted close against the back of
the shelf, which must be provided with
a hole the same size and shape as the
opening in the back of the camera.
The negative used to make the en-
larged print is placed in the shelf at A,
Fig. 1. The rays of the clear, unob-
structed light strike the mirror, B, and
reflect through the negative. A,
througb the lens of the camera and on
the board, as shown in Fig, 2. The
window must be darkened all around
the shelf.
After placing the negative and fo-
cusing the lens for a clear image on
the board, the shutter is set and a bro-
mide paper is placed on the board.
The paper is exposed, developed and
tixed by the directions that are in-
closed in the package of bromide
papers.
GDon't pull a lamp hung by flexible
cord to one side with a wire and then
fasten to a gas pipe. I have seen a
wire become red hot in this manner.
If the lamp hung by a cord must be
pulled over, use a string.
A Curious Compressed-Air
Phenomenon
Push a pin through an ordinary
business card and place the card
against one end of a spool with the pin
inside the bore, as shown in the sketch.
Then blow through the spool, and it
will be found that the card will not be
blown away, but will remain suspended
Ing Larce Pteture* with ■ Small Camara
without any visible support. This
phenomenon is explained by the fact
that the air radiates from the center
at a velocity which is nearly constant,
thereby producing a partial vacuum
between the spool and the card. Can
Exparimcnt with Spool biuI Card
the reader devise a practical application
of this contrivance?
Simple Switch for Reversing a Current
Take two strips of copper or brass
and fasten them together by means of
gutta-percha (Fig. 1) ; also provide
them with a handle. Saw out a rect-
angular block about one and one-half
times as long as the brass strips and
fasten to it at each end two forked
pieces of copper or brass, as in Fig. 2.
Fasten on the switch lever, as at A and
z: Iv^lOOglC
B, Fig. 2, so that it can rotate about
these points. Connect the wires as
shown in Fig. 3. To reverse, throw
1*1
H(.2
^
5=1^
-i
^^
=3
"•■3
BimplB Cnmnt-Kavvniiic Swltcti
the lever from one end of the block to
the other. — Contributed by R. L.
Thomas, San Marcos, Tex.
Novel Mousetrap
A piece of an old bicycle tire and a
glass fruit jar are the only materials
required for making this trap. Push
one end of the tire into the hole, mak-
ing sure that there is a space left at the
end so that the mice can get In. Then
lis
Homemade Arc Light
By rewinding an electric-bell mag-
net with No. 16 wire and connecting
it in series with two electric-light car-
bons, as shown in
the sketch, a small
arc will be formed
between the carbon
points when the cur-
rent is applied. la
the sketch, A is the
electric-bell magnet;
B, the armature ;
C C, carbon sockets ;
D, carbons, and E
E, binding posts.
When connected
with 10 or 18 dry
batteries this lamp
gives a fairly good light— Contributed
by Morris L. Levy, San Antonio, Tex,
Lighting an Incandescent Lamp with
an Induction Coil
An incandescent lamp of low candle-
power may be illuminated by connect-
ing to an induction coil in the manner
shown in the sketch. One wire is con-
nected to the metal cap of the lamp
and the other wire is fastened to the
glass tip. If the apparatu; is then
placed in the dark and the current
turned on, a peculiar phosphorescent
glow will fill the whole interior of the
lamp. The induction coil used for this
purpose should give a spark about %
in. long or more. — Contributed by Jo-
seph B. Bell, Brooklyn.
bend the other end down into a fruit
jar or other glass jar. Bait may be
placed in the jar if desired, although
this is not necessary. — Contributed by
Geo. O. McVicker, North Bend, Neb.
CA brilliant polish may be given to
tarnished nickel by immersing in alco-
hol and 3 per cent of sulphuric acid
from 5 to 15 seconds. Take out, wash
in running water, rinse in alcohol, and
rub dry with linen cloth.
.izciv^iOOglc
How to Make a Jump-Spark Coil
The induction coil is probably tiie
nost popular piece of apparatus in the
rlectrical laboratory, and particularly
is it popular because of its use in
experimental wireless telegraphy. Ten
years ago wireless telegraphy was a
dream of scientists; today it is the
plaything of school-boys and thousands
of grown-up boys as well.
Divested of nearly all
technical phrases, an in-
duction coil may be briefly
described as a step-up
transformer of small ca-
pacity. It comprises a
core consisting of a cylin-
drical bundle of soft-iron
wires cut to proper length.
By means of two or more
layers of No, 14 or No. 16
magnet wire, wound evenly
about this core, the bundle
becomes magnetized when
the wire terminals are con-
nected to a source of elec-
tricity.
Should we now slip over this electro-
magnet a paper tube upon which has
been wound with regularity a great
and continuous length of No. 36 mag-
net wire, it will be found that the lines
of force emanating from the energized
core penetrate the new coil-winding
almost as though it were but a part of
the surrounding air itself, and when
the battery current is broken rapidly
a second electrical current is said to be
induced into the second coil or sec-
ondary.
All or any of the parts of an induc-
tion coil may be purchased ready-made,
and the first thing to do is to decide
which of the parts the amateur me-
chanic can make and which would be
better to buy ready-made. If the
builder has had no experience in coil*
winding it would probably pay to pur-
chase the secondary coil ready-wound,
as the operation of winding a mile or
more of fine wire is very difficult and
tedious, and the results are often un-
satisfactory. In ordermg the second-
ary it is always necessary to specify
the length of spark desired.
The following method of completing
a 1-in. coil illustrates the general de-
tails of the work. The same methods
and circuits apply to small and larger
coils. The ready-made secondary is in
solid cylindrical form, about 6 in. long
and 2% in. diameter, with a hole
JiuDp-Sgaik Csd
through the winding 1^ in. in diam-
eter, as shown in Fig. 1. The second-
ary will stand considerable handling
without fear of injury, and need not be
set into a case until the primary is com-
pleted. The primary is made of fine
annealed No. 24 iron wire cut 7 in, or
8 in, in length, as the maker prefers,
and bundled to a diameter of % in.
The wires may be straightened by roll-
ing two or three at a time between two
pieces of hard wood. If the amateur
has difficulty in procuring this wire,
the entire core may be purchased
ready-made.
After the core wires are bundled, the
core is wrapped with one or two layers
of manila paper. The straighter the
wire the more iron will enter into the
construction of the core, which is de-
sirable. Beginning half an inch from
one end, No. 16 cotton-covered magnet
wire is wound from one end to the
other evenly and then returned, mak-
ing two layers, and the terminals tied
down to the core with twine. Core and
primary are then immersed in boiling
paraffine wax to which a small quan-
tity of resin and beeswax has been
added. This same wax may be used
later in sealing the completed coil into
a box. Over this primary is now
wrapped one layer of okonite tape, or
same thickness of heavily shellacked
muslin. This completed primary will
now allow of slipping into the hole in
the secondary.
Should the secondary have been pur-
chased without a case, a wooden box of
mahogany or oak is made, large enough
to contain the secondary and with an
inch to spare all around, with room also
for a small condenser; but if it is not
convenient to do this work, a box like
that shown in Fig. 2 may be purchased
at a small cost. A %-in. hole is bored
in the center of one end, through which
the primary core projects % in. This
core is to be used to attract magnetic-
ally the iron head of a vibrating inter-
rupter, which is an important factor of
the coil. This interrupter is shaped as
in Fig. 4, and is fastened to the box in
such a way that the vibrator hammer
plays in front of the core and also that
soldered connections may be made in-
side the box with the screws used in
affixing the vibrator parts to the box.
The condenser is made of four strips
of thin paper, 2 yd. long and 5 in.
wide, and a sufficient quantity of tin-
foil. When cut and laid in one con-
tinuous length, each piece of tin-foil
must overlap the adjoining piece a half
inch, so as to form a continuous elec-
trical circuit. In shaping the con-
denser, one piece of the paper is laid
down, then the strip of tin-foil, then
two strips of paper and another layer
of foil, and finally the fourth strip of
paper. This makes a condenser which
may be folded, beginning at one end
and bending about 6 in, at a time.
The condenser is next wrapped se-
curely with bands of paper or tape, and
boiled in pure paraffine wax for one
hour, after which it is pressed under
considerable weight until firm and
hard. One of the sheets of tin-foil is
to form one pole of the condenser, and
the other sheet, which is insulated from
the first, forms the other pole or ter-
minal. (This condenser material is
purchasable in long strips, ready for
assembling.)
The wiring diagram, Fig. 3, shows
how the connections are made. This
method of connecting is suitable for
all coils up to l^-in. spark, but for
larger coil better results will be ob-
tained by using an independent type of
interrupter, in which a separate magnet
is used to interrupt the circuit Besides
the magnetic vibrators there are sev-
eral other types, such as the mercury
dash-pot and rotary-commutator types,
but these will become better known to
the amateur as he proceeds in his
work and becomes more experienced
in coil operation.
Combined Door Bell and Electric
Alarm
This device consists of a battery and
bell connection to an alarm clock which
also acts as a door
bell, the whole be-
ing mounted on a
board 18 in. long
and 13 in. wide.
Referring to the
sketch accom-
panying this arti-
cle, the letters
indicate as fol-
lows: A, bell; B,
battery; C,
switch; D, V-
shaped copper
strip ; E, coppei
lever with 1-in. flange turned on one
side, whole length, 4 in. ; F, spring to
throw lever E down in V-shaped piece
to make connection ; G, lever to hold
out E when device is used as a door
bell ; lines H, go, one from bell. A, and
one from battery, B, to the door; I,
shelf for clock.
See that the ring in the alarm key
of the clock works easily, so that when
it is square across the clock it will drop
down. Fasten a piece of copper about
l:v v^<v.^v_'Vl'
■a"
1 in. long to key, then wind the alarm
just enough so that the key stands
straight up and down. Place the clock
on the shelf and the key under the
flange of lever E. Pull lever G down
out of the way and close the lever on
the switch. The alarm key will turn
and drop down, letting lever E drop in-
to the V-shaped piece D and make con-
nection.
For the door-bell connection close
lever on switch C, and put G up so that
D and E do not come in contact. If
any one is ill and you do not want the
bell to ring, open switch C.
The wiring for this device may all be
on the back of the board. The switch
and levers are fastened with small
screw bolts, which allows wiring at
the back. Saw two spools in half and
fasten the halves to the four comers of
the board at the back, and the appara-
tus may be put up where one likes.
To Build a Small Brass Furnace
Bend a piece of stout sheet iron 23
in. by 12 in. round so that the inside
diameter is 7 in., and
then rivet the seam.
Fit in a round piece
of sheet iron for the
bottom. Make a
^ hole about the size
of a shilling in the
side, 2 in, from the
bottom. This is for
blowing.
Line the furnace,
bottom and sides with fire-clay to a
depth of ^ in. Use charcoal to burn
and an ordinary bellows for blowing,
says the Model Engineer, London.
The best blast is obtained by holding
the nozzle of the bellows about an inch
from the hole, instead of close to it.
QDon't wrap paper around a lamp
for a shade. You might go away and
forget it and a fire might be started
from the heat Use a glass or metal
shade. That is what they are for.
Why Gravity Batteries Fail to Work
Many amateur electricians and some
professionals have had considerable
trouble with gravity batteries. They
Scttlnc Up a Oravllv Battur
follow directions carefully and then
fail to get good results. The usual
trouble is not with the battery itself,
but with the circuit. A gravity battery
is suitable only for. a circuit which is
normally closed. It is therefore un-
desirable for electric bells, induction
coils and all other open-circuit appara-
tus. The circuit should also have a
high resistance. This makes it im-
practical for running fan motors, as the
motor would have to be wound with
fine wire and it would then require a
large number of batteries *o give a
sufficiently high voltage.
To set up a gravity battery : Use
about 31^ lb. of blue stone, or enough
to cover the copper element 1 in. Pour
in water sufficient to cover the zinc Yz
in. Short-circuit for three hours, and
the battery is ready for use. If desired
for use immediately, do not short-cir-
cuit, but add 5 or 6 oz. of zinc sulphate.
Keep the dividinj^ line between the
blue and white liquids about Vz in. be-
low the bottom of the zinc. If too low
siphon off some of the white liquid ana
add the same amount of water, but do
not agitate or mix the two solutions.
This type of battel y will give about 0.9
of a volt, and should be used on a cir-
cuit of about 100 milli-amperes.
lOOglc
A Skldoo-Skldee Trick
In a recent issue of Popular Me-
chanics an article on "The Turning
Card Puzzle" was deacribed and illus-
trated. Outside of the scientifie side
involved, herein I describe a much bet-
ter trick. About the time when the
expression "skidoo" first began to be
used I invented the following trick and
How to Cat tba NmcIm*
called it "Skidoo" and "Skidee," which
created much merriment. Unless the
trick ie thoroughly understood, for
some it will turn one way, for others
the opposite way, while for others it
will not revolve at all. One person
whom I now recall became red in the
face by shouting skidoo and ekidee at
it, but the thing would not move at all,
and he finally from vexation threw the
trick into the fire and a new one had
to be made. Very few can make it
turn both ways at will, and therein is
the trick.
Take a piece of hardwood | in.
square and about 9 in. long. On one
of the edges cut a series of notches as
indicated in Fig. 1. Then slightly
taper the end marked B until it is
nicely rounded as shown in Fig. 3.
Next make an arm of a two-ann wind-
mill such as boys make. Make a hole
through the center of this one arm.
Enlarge the hole slightly, enough to
allow a common pin to hold the arm
to the end B and not interfere with the
revolving arm. Two or three of these
arms may have to be made before one
is secured that is of the exact propor-
tions to catch the vibrations right.
To operate the trick, grip the stick
firmly in one hana, and with the for-
ward and backward motion of the other
allow the first finger to slide along fiit
top edge, the second finger along the
side, and the thumb nail will then vi-
brate along the notches, thus making
the arm revolve in one direction. To
make the arm revolve in the opposite
direction — keep the hand -moving all
the time, so the observer will not de-
tect the change which the hand makes
— allow the first finger to slide along
the top, as in the other movement, the
thumb and second finger changing
places; e. g., in the first movement
you scratch the notches with the thumb
nail while the hand is going from the
body, and m the second movement yon
scratch the notches with the nail of
the second finger when the hand ie
coming toward the body, thus produc-
ing two different vibrations. In order
to make it work perfectly (?)
you must of course say "skidoo"
when you begin the first movement,
and then, no matter how fast
the little arm is revolving when
changed to the second movement, you
must say "skidee" and the arm will
immediately stop and begin revolving
in the opposite direction. By using
the magic words the little arm wiu
obey your commands instantly and
Your audience will be mystified. If
any of your audience presume to dis-
pute, or think they can do the same,
let them try it. You will no doubt be
accused of blowing or drawing in your
breath, and many other things in order
to make the arm operate. At least it
is amusing. Try it and see. — Con-
tributed by Charles Clement Bradley,
Toledo, Ohio.
Badinm acts upon the chemical con-
stituents of glass, porcelain and paper,
imparting to them a violet tinge;
changes white phosphorus to yellow,
oxygen to ozone, affects photograph
plates and produces many other curions
chemical changes.
On its official trial trip the British
torpedo boat destroyer '*Mohawk" at-
tained the record speed of a little over
39 miles an hour.
d by Google
How to Enlarge from Life in the Camera
Usually the amateur photographer
gets to a point in his work where the
miscellaneous taking of everything in
sight is somewhat unsatisfying. There
are many special
~| fields he may
enter, and one of
them is photo-
3 micrography. It
r is usually under-
stood that this
branch of pho-
tography means
an expensive ap-
paratus. If the
worker is not
after too high
a magnification,
however, there is
a very simple and effective means of
making photomicrographs which re-
quires no additional apparatus that
cannot be easily and quickly con-
structed at home.
Reproduced with this article is a
photograph of dandelion seeds — a mag-
nification of nine diameters or eighty-
one times. The apparatus which pro-
duced this photograph consisted of a
camera of fairly long di-aw, a means
for holding it vertical, a short-focus
lens, and, if possible, but not essential,
a means for focusing that lens in a
mi^ute manner. On top of the tripod
is the folding arrangement, which is
easily constructed at home with two
hinged hoards, an old tripod screw, an
old bedplate from a camera for the
screw to fit in, and two sliding brass
pieces with setscrews that may be pur-
chased from any hardware store under
' the name of de?k sliding braces. To
the front board is attached a box, car-
rying the lens and the bed of the slid-
ing object carrier, which can be moved
forward and back by the rack and
pinion, that also can be obtained from
hardware stores. If the bed for the
object carrier be attached to the bed
of the camera instead of to the front
board, the object carrier need have no
independent movement of its own,
focusing being done by the froKt and
back focus of the camera; but this is
less satisfactory, particularly when
accurate dimensions are to be deter-
mined, "■»ys the Photographic Times.
This ou t need not be confined to
seeds alone, but small flowers, earth,
chemicals, insects, and the thousand
and one little things of daily life — all
make beautiful subjects for enlarged
photographs. These cannot be made
by taking an ordinary photograph and
enlarging through a lantern. When a
gelatine dry plate is magnified nine
diameters, the grains of silver in the
negative will be magnified also and
produce a result that will not stand
close examination. Photographs made
by photomicrography can be examined
like any other photographs and show
no more texture than will any print.
Steel Pen Used in Draftsman's Ink-
Bottle Cork
A steel pen makes an ideal substi-
tute for a quill in the stopper of the
draftsman's ink bottle. The advantage
of this substitute is that there is
always one handy to replace a broken
or lost pen, while it is not so with the
quill. — Contributed by George C. Mad*
ison, Boston, Mass.
lOOglc
How to Make a PUot Balloon
By B. Ooddutf
Unusual interest is being displayed in
ballooning, and as it is fast becoming
the favorite sport many persoiiB would
like to know how to construct a min-
iature balloon for making experiments.
The following table will give the size,
as well as the capacity end lifting power
of pilot balloons :
Diameter. Cap. In Cu. Pt. Lifting Power.
The material must be cnt in suitable
, shaped gores or segments. In this ar-
ticle we shall confine ourselves to a
10-ft. balloon. If the balloon is 10 ft.
. in diameter, then the circumference will
be approximately 3 1/7 times the di-
ameter, or 31 ft. 5 in. We now take
one-half this length to make the length
of the gore, which is 15 ft. 7^ in. Get
a piece of paper 15 ft. 7^ in. long and
3 ft. wide from which to cut a patterr.
Fig. 1. A line, AB, is drawn length-
wise and exactly in the middle of the
paper, and a line, CD, is drawn at right
angles to AB and in the middle of the
paper lengthways. The intersecting
point of AB and CD is nsed for a cen-
ter to ascribe a circle whose diameter is
the same as the width of the paper, or
3 ft. Divide one-quarter of the circle
into 10 equal parte and also divide
one-half of the line AB in 10 equal
parts. Perpendicular lines are drawn
parallel with the line CD intersecting
the division points made on the one-
half line AB. Horizontal and parallel
lines with AB are drawn intersecting
the division points made on the one-
quarter circle and intersecting the per-
pendicular line drawn parallel with CD.
A line is now drawn from B to £ and
from E to F, and so on, until all the
intersecting lines are touched and the
point C is reached. This will form the
proper curve to cut the pattern. The
paper is now folded on the line AB and
then on the line CD, keeping the
marked part on the outside. The pat-
tern is now cut, cutting all four quar-
ters at the same time, on the curved
line from B to C. When the paper is
unfolded you wilt have a pattern as
shown in Fig. 3. This pattern is used
to mark the cloth, and after marked is
cut the eame shape and size.
The cloth segments are sewed to-
gether, using a fine needle and No. 70
thread, making a double seam as shown
in Fig. 3. When all seams are com-
pleted you will have a bag the shape
shown in Fig. 4. A small portion of
one end or a seam must be left open
for inflating. A small tube made from
the cloth and sewed into one end will
make a better place for inflating and
to tie up tightly.
It is now necessary to varnish the
bag in order to make it retain the gas.
Pattarn for Outtins tha a a g rmfrta
d by Google
Procure 1 gal. of the very best heavy
body, boiled linseed oil and immerse
the bag in it. The surplus oil is
squeezed oat by running the bag
through an ordinary clothes wringer
several times. The bag is now placed
in the sun for a thorough drying. Put
the remaining oil in a kettle wi5i J lb.
of beeewax and boil well together. This
solution is afterward diluted with tur-
pentine BO it will work well. When the
bag is dry apply this mixture by rub-
bing it OS the bag with a piece of flan-
nel. Hepeat this operation four times.
Sawing 8<K'">'<tB Toiather
being sure of a thorough drying in the
sun each time. For indoor coating and
drying nse a small amount of plumbic
oxide. This will dry rapidly in the
shade and will not make the oil hard.
Fill the bag with air by using a pair
of bellows and leave it over night. This
test will show if the bag is airtight.
If it is not tight then the bag needs
another rubbing. The next operation
is to fill the bag with gas.
Hydrogen gas is made from iron and
sulphuric acid. The amounts neces-
sary for a 10-ft balloon are 125 lb. of
iron borings and 125 lb. of sulphuric
acid. 1 lb. of iron, 1 lb. of sulphuric
acid and 4 lb. of water will make 4
cu. ft. of gas in one hour. Secure two
empty barrels of about 52 gal. capacity
and connect them, as shown in Fig. 5,
with 3-in. pipe. In the barrel, A, place
the iron borings and fill one-half full
of clear water. Fill the other barrel,
B, with water 3 in. above the level of
the water in barrel A. This is to give
a water pressure head against foaming
when the generator is in action. About
15 lb. of lime should be well mixed
with the water in the barrel B. All
Th> H|fdro|*n Qonentor
joints must be sealed with plaster of
Paris. Pour in one-half of the acid
into the barrel. A, with the iron
borings. The barrels are kept tight
while the generation ia going on with
the exception of the outlet, C, to the
bag. When the action is stopped in
the generator barrel. A, let the solution
run out and fill again as before with
water and acid on the iron borings.
The outlet, C, should he always con-
nected with the bag while the generator
is in action. The j-in. pipe extending
down into the cooling tank, B, should
not enter into the water over 8 in.
When filled with gas the balloon is
ready for a flight at the will of the
operator.
How to dean ■ Clock
It is very simple to clean a elf :k,
which may sound rather absurd. For
an amateur it ia not always necessary to
take the clock to pieces. With a little
care and patience and using some ben-
zine, a clean white rag, a sable brush
and some oil a clock can be cleaned and
put into first-class running order. The
benzine should be clean and free from
oil. You can test benzine by putting a
little on the back of the hand; if it is
good it will dry ofF, leaving the hand
quite clean, but if any grease remains
on the hand, it is not fit to use.
The oil should be of the very best
that can be procured. Vegetable oils
should never be used. Clock oil can be
procured from your druggist or jeweler.
All loose dirt should be removed
from the works by blowing with bel-
lows, or a fan, or dusting with a dry
d by Google
brush; in the latter case great care
should be exercised Qot to injure any
of tlie parts. l>ip tlie brush Id the
benzine and clean the spindles and
Bpindte holes, and the teeth of the es-
capement wheeL After washing a part,
wipe the brush on the rag and rinse in
the benzine; this should be repeated
frequently, until no more dirt is seen.
When the clock has dried, oil the
spindle holes carefully; this may be
done with a toothpick or a sliver of
wood cut to a fine point. Oil the tooth
of the escapement wheel slightly, using
a fine brush.
How to Mak« Bluepriot Lantern
Slides
Lantern slides of a blue tone that is
s pleasing variety from the usual black
may be made from spoiled or old plates
which have not been developed, by fix-
ing, washing well and then dipping five
minutes in the following solution :
A. Gnmt Iron ■annonliiin Fttnt«..190 gr.
B. PotaHalDm ferrocyanlda B" >■*-
W«t«r 1 <».
Prepare the solutions separately and
mix equal parts for use, at the time of
employment. Dry the plates in the
darlt, and keep in the dark until used.
^ nling is done in the sun, and a vig-
nrous negative must be used, says the
1 'oving Picture World. Exposure, 80
to 30 minutes. Wash 10 minutes in
mnntng water and dry. Brown or pur-
ple tones may be had by sensitizing with
the following solution instead of {be
above;
Dlif iried water 1 M.
silver Dllmie BO jr.
Tartaric or cltilc acid % oa.
Bathe the plates 5 minutes, keeping
the fingers out of the solution, t« avoid
blackened skin. Dry in the dark. Print
to bronzing under a strong negative;
fix in hypo, toning first if desired.
A Substitute for a Ray Filter
Not many amateur photographers'
possess a ray filter. A good substitute
is to use the orange glass from the ruby
lamp. This can be held in position in
front of the lens with a rubber band.
A longer exposure will be necesaaiy,
but good cloud effects can be procured
in this manner.
Electric Lamp Experiments
Incandescent electric lamps can be
made to glow so that they may be seen
in a dark room by rubbing the globe
on clothing or with a paper, leather or
tinfoil and immediately holding near a
^-in. Ruhmkorff coil which is in action
but not sparking. The miniature 16-
cp., 20 and 22-Tolt lamps will show
quite brilliantly, but the 110-volt
globes will not glow. When experi-
menting with these globes everything
should be dry. A cold, dry atmosphere
will give beat results.
d by Google
How to Make a Simple Wireless
Telegraph
B7 ARTHUR B. JOEKIN
An efficient wireless-telegraph receiv-
ing apparatus for distances up to 1,000
ft. may be constructed in the following
manner: Attach a watchcase telephone
receiver to a dry cell, or battery, of any
make. The negative pole, or zinc, ot
the cell is connected to a ground wire.
This is done by attaching to a gas
or water pipe. The positive pole, or
carbon, of the cell is connected to the
aerial line. This aerial collector can
be made in various ways, either by
using a screen wire or numerous wires
For DlaUncM np
made in an open coil and hung in the
air. File a V-shaped groove in the
upper end of the carbon of the cell.
Attach a small bent copper wire in the
binding post that is attached to the
zinc of the cell. In the bend of this-
wire and the V-shaped groove filed
into the carbon, lay a needle. This
will complete the receiving station.
Use a spark coil in connection with a
teicgraph key for the sending station,
maKmg a ground with one wire, and
have the other connected with another
aerial line.
By connecting the telephone re-
ceiver to the cell and at the same time
having a short circuit a receiving sta-
tion is made. As the telephone offers
a high resistance, part of the current
will try to take the shorter high resist-
ance through the needle. If the waves
strike af-ross the needle, the resistance
is less, and thus less current travels
through the telephone receiver. If the
wave ceases, the resistance betweea
the needle and the carbon is increased,
and as less current will flow the short
way, it is compelled to take the longer
metallic way throujjh the wimlinr's of
the receiver, which will cause the click-
ings that can be heard.
To Preserve Putty
Putty, when left exposed to the air,
will soon become dry and useless. I
have kept putty in good condition for
more than a year by placing it in a
glass jar and keeping it entirely cov-
ered with Vf3llT.
How to Mike a Small Storage
Battery
The cell of a storage battery con-
sists of two plates, a positive and a
negative, made of lead and placed in
a dilute solution of sulphuric acid.
Large batteries made of large cells
have a great number of plates, both
positive and negative, of which al' pos-
itive plates are connected to one ter-
minal and the negative plates to the
other terminal. The storage cell, as
described below,
is the right size
to be charged by
a few gravity
cells and is easily
made.
Secure a piece
of 134-in. lead
pipe, 5 in. long,
and cut both
ends smooth and
square with the
pipe. Solder a
circular disk of
lead to one end,
forming a cup of
the pipe. As this
cup must hold
the sulphuric acid it must be perfectly
liquid-tight.
It is also necessary to get an-
other lead pipe of the same length but
only % in. in diameter. In this pipe
should be bored as many %-in. holes
jOOgIc
as pOBBible, except for about 1 in. oa
each end. One end of this tube is ham-
mered together afH^own at A in the
eketch to make a pocket to hold the
paste. This, of course, does not need
to be watertight.
A box of wood is made to hold the
larger tube or cup. This box can be
square, and the corners left open around
the cup can be filled with sawdust. A
support is now made from a block of
wood to hold the tube, B, in place and
to keep it from touching the cup C.
This support or block, D, is cut cir-
cular with the same diameter as the
lead cup C, The lower portion of the
block is cut away so it will just fit in-
side of the cup to form a stopper. The
center of this block is now bored to
make a hole the same size as the smaller
lead pipe. Place the lead pipe in the
hole and immerse it in smoking hot
paraffine wax, and leave it until the
wood has become thoroughly saturated
with the hot wax. Use care to keep
the wax from running on the lead at
any place other than the end within
the wood block. Two binding-posts
should be attached, one to the positive,
or tube B, and the other to the nega-
tive, or tube C, by soldering the joint.
A paste for the positive plate is made
from 1 part sulphuric acid and 1 part
water with a sufficient amount of red
lead added to make of thick dry con-
sistency. When mixing the acid and
water, be sure to add the acid to the
water and not the water to the acid.
Also remember that sulphuric acid will
destroy anything that it comes in con-
tact with and will make a painful bum
if it touches the hands. Stir the mix-
ture with a stick and when a good dry
paste is formed, put it into the smaller
tube and ram it down until the tube is
almost filled. The paste that may have
come through the holes is scraped off
and the tube set aside to dry. The
large tube or cup is filled witii a diluted
solution of sulpnuric acid. This solu-
tion should be about one-twelfth acid.
The cell is now complete and ready for
storing the current.
The cell may be charged with three
gravity cells. These are connected ia
series and the positive terminal bind-
ing-post on the storage cell is connected
to &e wire leading from the copper
plate in the gravity cell. The other
plate is connected to the zinc. The
first charge should be run into the cell
for about one week and all subsequent
charges should only take from 10 to 12
hours,
Plttlnc a Plue In Diflerent Shaped
A certain king offered to give the
prince his liberty if he could whittle
a plug that would fit four different^
shaped holes, namely ; a square hole, a
round one, an oblong one and a trian-
gular one, says the Pathfinder. A
broomstick was used to make the plug
and it was whittled in the shape shown
PiU Four Oitfnnt Shapad Holai
in Fig. 1. The holes in the different
places as shown in F^. 2, were fitted
by this one plug.
How to Make a Lt|^tnln|; Arrester
Secure a piece of wood about 3J in.
square that will furnish a nice finish
and round the comers and make a small
rounding edge as shown in the sketch.
From a piece oi,
brass A in.
ihick cut two
pieces alike, A
and B, and
match them to-
gether, leaving
about V» i°- t*"
tween their upper edges and fasten
them to the wood with binding-posts.
The third piece of brass, C, is fitted
d by Google
between tbe pieces A and B allowing a
space of Vs-in. all around the edge.
One bindbig-post and a email screw will
bold the piece of brass, C, in place on
the wood. The connections are made
from the line wires to the two upper
binding-posts and parallel from the
lower binding-posts to the instrument.
The third binding-post on C is connect-
ed to the ground wire. Any heavy charge
from lightning will jump the eaw
teeth paA of the brass and is grounded
without doing barm to the instruments
used. — Contributed by Edwin Walker,
Chicago, 111 .
A Home-Made Pont
A flat bottom boat is easy to make
and is one of the safest boats, as it
is not readily overturned. It haa the
advantage of being rowed from either
end, and has plenty of good seating
capacity.
This punt, as shown in Fig. 1, is
built 15 ft. long, about 20
in. deep and 4 ft. wide.
Tbe ends aie cut sloping
for about 20 in. back and
under. The sides are
each made np from
boards held together with
battens on the inside of
the boat near the ends
and in the middle. One
wide board should be
used for the bottom piece.
Two pins are driven in
the top board of each
aide to eerve as oarlocks.
The bottom is covered
with matched boards not
over S in. wide. These pieces are
placed together as closely as possible,
using white lead between the joints
and nailing them to the edges of the
side boards and to a keel strip that
runs the length of the punt, as shown
in Fig. 2. Before nailing the boards
place lamp wicking between them and
the edges of the side boards. Only
galvanized nails should be used. In
order to make the pnnt perfectly water-
tMtht it is best to use tiie dryest lum-
ber obtainable. At one end of the punt
a skag and a rudder can be attached aa
shown in Fig. 3.
Pbotographsra* Priotios Praaio
Stand
When nsing developing papers it is
always bothersome to build up books or
AiQlntabl* to Any HalcM
small boxes to make a place to set the
printing frame in front of the light.
Details for making a small stand that
Euv to BuiM Biid S>ta to Um
is adjustable to any desired height are
shown in the sketch. In Fig. 1 is
shown the construction of the sliding
holder. A piece of ^in. gas pipe, A,
is cut 1 in. long and fitted with a
thumbscrew, B. The piece of pipe is
soldered to the noddle on the back side
of a piece of metal li^at is about 4 by 4^
in. with its lower edge turned np to
form a small shelf as ^own at C. The
main part of tbe stand is made by in-
serting a Vk*ui> Tod tightly into a block
d by Google
of hard maple wood that is 1 in. thick
and 3J-in. square (Fig 8). The pipe
that is soldered to the metal support
will Blide up and down the rod and the
thombscrew can be aet to hold it at
the desired point.
Heat SDd Expansktii
Take an electric light bulb from
which th« air has not been exhausted
and immerse it in water and then
break off the point. As there ia a vacu-
um in the bulb it will quickly fill with
water. Shake the bulb gently until a
part of the water is out and then screw
the bulb into a socket with the point
always downward. Apply the current
and the heated air inside will soon ex-
pand and force the water out with great
rapidity. Sometimes this experiment
can be done several times by using the
same bulb.— Contributed by Curtiss
Hill, Tacoma, Wash.
Pbotograpbing a Streak ol Ufhtnloff
The accompanying il-
lustration is a remark-
able photograph of a
Btreak of lightning.
Many interesting p i c -
tures of this kind can
be made during a stMm
at night. The camera
is set in a plare where
it will not get wet and
left standing with the
shutter open and the
plate ready for the ex-
posure. Should a light-
ning streak appear within the range of
the lens it will be- made on the plate,
which can be developed in the usual
manner. It will require some atten-
tion to that part of the sky within the
range of the lens so as to not make a
double exposure by letting a second
flash enter the open lens. — Contributed
by Charles H. Wagner.
Borax may be used as a solvent for
diellac gunu
How to Make a Small Slni^PbaM
Induction Motor
ByC.H.Bm
The following notes on a small sin-
gle-phase induction motor, without aux-
iliary phase, which the writer has made,
may be of interest to some of our read-
ers, says the Model Engineer. The
problem to be solved was the construc-
tion of a motor large enough to drive
a sewing machine or very light lathe,
to be supplied with 110-volt alternating
current from a lifting circuit, and to
consume, if possible, no more current
than a i6-cp. lamp. In designing, it
had ia be borne in mind that, with the
exception of insulated wire, no special
materials could be obtained.
The principle of an induction motor
is quite different from that of the com-
mutator motor. The winding of the
armature, or "rotor," has no connection
with the outside circuit, but the cur-
rent is induced in it by the action of
the alternating current supplied to the
winding of the field-magnet, or "sta-
tor." Neither commutator nor slip
rings are required, and all sparking ia
avoided. TJnfo-tunately, this little ma-
chine is not self-starting, but a slight
puH on the belt just as the current is
turned on is all that is needed, and
the motor rapidly gathers speed pro-
vided no load is put on until it is in
step with the alternations of the sup-
ply. It then runs at constant speed
whether given much or little current
but stoDS if overloaded for more iima 9
few seconds.
d by Google
The Btator has four poles aod is built
up of pieces of sheet iron used for stove
pipes, which runB about C5 sheets to the
inch. All the pieces are alike and cut
on the lines with the dimensions aa
shown in Pig. 1, with the dotted line,
C, to be filed out after they are placed
together. Each layer of four is placed
with the pointed ends of the pieces al-
ternately to the right and left so as to
break joints as shown in Fig. 3. The
laminations were carefully built up on
a board into which heavy wires had
been driven to keep them in place until
all were in position and the whole could
he clamped down. In the middle of
the pieces ^-in, holes, B, were then
drilled and ^-in. bolts put in and tight-
ened up, large holes being cut through
the wood to enable this to be done. The
armature tunnel was then carefully
filed out and alt taken apart again so
that the rough edges could be scraped
ofE and the laminations given a thin
coat of shellac varnish on one side. Af-
ter assembling a second time, the bolts
were coated with shellac and put into
place for good. Holes 5-32 in. in di-
ameter were drilled in the corners, A,
and filled with rivets, also varnished
before they were put in. When put to-
gether they should make a piece 3 in.
thick.
This peculiar construction was
adopted because proper stampings were
not available, and as every bit of sheet
iron had to be cut with a small pair of
Gnners' snips, it was important to have a
very simple outline for the pieces. They
are not particularly accurate as it is, and
when some of them got out of their
proper order while being varnished, an
awkward job occurred in the magnet
which was never entirely corrected. No
doubt some energy is lost through the
large number of joints, all representing
breaks in the magnetic circuit, bat as
the laminations are tightly held to-
gether and the circuit is about as com-
pact as it could possibly be, probably
the loss is not as great as it would ap-
pear at first sight.
The rotor is made of laminations cut
from sheet iron, as shown in Fig. 3,
which were varnished lightly on one side
and clamped on the shaft between two
nuts in the usual way. A very slight
cut was taken in the lathe afterwards
to true the circumference. The shaft
was turned from ^-in. wrought iron, no
steel being obtainable, and is shown
with dimensions in Fig. 4. The bear-
ings were cast of babbitt metal, as
shown in Fig. 5, in a wooden mold and
bored to size with a twist drill in the
lathe. They are fitted with ordinary
wick lubricators. Figures 6 and 7 are
sections showing the general arrange-
ment of the machine.
The Btator is wound full with "So. 23
double cotton-covered copper wire,
d by Google
about Zi lb. being used, and the connec-
tiona are such aa to produce alternate
poles — that is, the end of the firfit coll
is joined to the end of the second, the
beginning of the second to the begin-
ning of the third, and the end of the
third to the end of the fourth, while the
beginnings of the first and fourth coils
connect to the supply.
The rotor is wound with No, 24
double cotton-covered copper wire, each
limb being tilled with about 300 turns,
and all wound in the same direction.
The four commencing ends are con-
nected togetlier on one side of the rotor,
and tiie four finishing ends are soldced
togetlier on the other. All winding
spacea are carefully covered with two
]a}'era of cambric soaked in shellac, and
as each layer of wire was wound, it was
well saturated with varnish before the
ne\t was put on.
This type of motor has drawbacks, as
before stated, hut if regular stampings
are used for the laminations, it would
be very simple to bui!d, having no com-
mutator or brushes, and would not eas-
ily get out of order. No starting resist-
ance is needed, and as the motor runs
at constant speed, depending upon the
number of alterations of the supply, a
regulating resistance is not needed.
water containing saturated solutioii of
picric acid.
How to Make a Paper Botric Cover
Book covers become soiled in han-
dling and especially school books. Vari-
ous methods are applied for making a
temporary cover that will protect the
book cover. A paper cover can be
quickly made by using a piece of paper
larger than both covers on the book
when they are open. Fold the paper on
the long dotted line, as shown in Fig. 1.
When the folds are made the paper
should then be just as wide as the book
cover is high. Tlie ends are then folded
on the short dotted lines, which will
make it appear as shown in Fig. 2. The
paper thus folded is placed on the book
cover as shown in Fig, 3 — Contributed
by C. E. McKinney, Jr., Newark, N, J.
The pain of carbolic acid bums can
be relieved promptly by washing with
alcohol, if applied immediately. If too
late for alcohol to be of use, brush with
p.*. 2
To ProtMt Book OovWB
Digitized byGOOgIC
How to Make Lantern Stidesi
The popularity of lantern slides, and
especially of colored ones, as a means of
illustrating songs, has caused so large
a demand for this class of work that
almost any amateur may take up slide
making at a good profit. The lantern
slide is a glass plate, coated with slow
and extremely fine-grained emulsion.
The size is 3V4 by 4 in. A lantern slide
is merely a print on a glass plate in-
stead of on paper. Lantern slides can
be made in two different ways. One
is by contact, exactly the same as a
print is made on paper, and the other
by reduction in the camera. In mak-
ing slides by contact, select the neg-
ative and place it in the printing frame
development and will come out as
clear glass after fixing. It is best to
use the developers recommended by
the manufacturer of the plates used,
the formulas being found in each
package of plates. It is best, also, tc
use a plain Bxing bath, which must be
fresh and kept as cool as possible in
hot weather.
The lantern-slide film that is new on
the market can be handled in the same
manner as the glass-plate slide, except
that the binding is different. The re-
sults are the same and the slides are
not so bulky to handle. Being un-
breakable, they are much used by
travelers. The manner of binding
The Camtri ai It i* ArriDied in Front of tti
■nd the Hithod o<
and put the lantern plate upon it, film
to film. Ciamp down the back and
expose just as in making a print. A
good method of exposing is to hold a
lighted match about 3 in. from the
frame for three or more seconds accord-
ing to the density.
Development is carried on in the
same manner as with a negative. The
image should appear in about a
minute, and development should be
over in three or four minutes. If the
exposure has been correct, the high
lights will stay white throughout the
c Window lor Rcdncing the Site of ■ Picture,
Bioding the Slidei
them for use in a lantern is described
on the circular inclosed with the film.
When the negative is larger than
the lantern-slide plate, and it is desir-
able to reduce the entire view upon
the slide, a little extra work will be
necessary. Select a room with one
window, if possible, and fit a light-
proof frame into it to keep out all
light with the exception of a hole in
which to place the negative, as shown
in Fig. 1, Unless this hole is on a line
with the sky it will be necessary to
place a sheet of white cardboard at an
byCOOglC
angle of 45 deg. on the outside of the
frame to reflect the light through the
negEtive as shown in Fig. 2. Make
or secure an inside kit to place in the
plate holder of your camera to hold
llie lantern slide plate as shown in
Fig. 3. Draw lines with a penci], out-
lining on the ground glass ot the
camera the size of the lantern slide
plate, and in the place where the plate
will be in the plate holder when placed
in position in the camera. This will
enable you to focus to the proper size.
Place the camera in front of the hole
in the frame, place the negative in the
hole and focus the camera for the lan-
tern slide size. Expose with a medium
stop for about 20 seconds and treat
the plate the same as with the contact
expoBure.
When dry the lantern elide plate may
be tinted any color by means of liquid
colors. These can be purchased from
any photo material ctore. In coloring
the slide plate it is only necessary tc
moisten the gelatine film from time to
time with a piece of cloth dampened in
water. The colors may then he spread
evenly with a soft brush, which should
be kept in motion to prevent spots.
The slide is put together by placing
a mat made of black paper, as shown
in Fig. 4, on the gelatine side of the
lantern slide, A, Fig. 5, and then a
plain glass, B, over the mat, C, and
the three bound together with passe-
partout tape, D. Contrasty ne^tives
make the best slides, but the lantern
slide plate should be made without
any attempt to gain density.
HOW TO MAKE A PORCH SWINQ CHAIR
The material needed for making this
porch swing chair are two pieces of
round wood 2^ in. in diameter and 20
in, long, and two pieces 1} in, in diam-
eter and 40 in. long. These longer
pieces can he made square, but for ap-
pearance it is best to have them round
or square with the comers rounded. A
piece of canvas, or other stout cloth, 16
in. wide and 50 in. long, is to be used
for the seat. The two
short pieces of wood are
used for the ends of the
chair and two l-in, holes
are bored in each end of
them IJ in. from the
ends, and between the
holes and the ends
grooves are cut around
them to make a place to
fasten ropes, as shown at
B, Fig. 1. The two
longer pieces are need for
the sides and a tenon is
cut on each end of them
to fit in the l-in, holes bored in the
end pieces, as shown at A, Fig. 1. The
canTas is now tacked on the end pieces
and the pieces given one turn before
placing the mortising together.
The chair is now hung up to the
porch ceiling with ropes attached to a
large screw eye or hook. The end of
the chair to be used for the lower part
is held about 16 in. from the floor with
ropes direct from the grooves in the
end pieces to the hook. The upper
end is supported by using a rope in the
form of a loop or bail, as shown in
"" " The middle of the loop or bail
should be about 15 in. from the end
piece of the chair. Another rope is
attached to the loop and through the
hook and to a slide as shown. This
will allow for adjustment to make the
d by Google
device into a chair or a hammock. —
Contributed by Eari R.
Corinth, Vt.
How to Find tbe BUnd Spot In the
Eye
Make a small black circular dot |
in. in diameter on a piece of cardboard
and about 3 in. from the center of
this dot draw s star. Hold the card-
board so that the star will be directly
in front of one eye, while the dot will
be in front of the other. If the star
is in front of the left eye, close the
right eye and look steadily at the star
while yon move the cardboard until the
point is reached where the dot disap-
pears. This will prove the presence
of a blind spot in a person's eye. The
other eye can be given the same ex-
periment by turning the cardboard end
for end. The blind spot does not indi-
cate diseased eyes, but it simply marks
the point where the optic nerve enters
the eyeball, which point ia not pro-
vided with the necessary visual end or-
gans of the sight, known as rods and
A wax from the rafie palm of Mada-
gascar IB being used as a substitute for
beeewaz.
Home-Made Water Wheel Doe*
PamUy Washing
The accompanying sketch illustrates
a very ingenious device which does the
family washing, as well as to operate
other household luacbines. A disk 1 in.
in thickness and 10 in. in diameter was
cut from a piece of rough board, and
on ita circumference were nailed a
number of cup-shaped pieces cut from
old tin cans. A hole was then bored
through the center of the disk and an
old piece of iron
rod was driven
through to form a
shaft. Two holes
were then bored
opposite each
other through the
sides of a wooden
box in which the
disk was plac^,
allowing the shsf t
to project through
the holes. A small
grooved wooden
pulley was driven
the projecting ends
top of the bos was
and a hole, large
he nozzle of a gar-
1 so that the jet of
pon the tin buckets
that were nailed to the circumference
of the wheel or disk. Another hole was
bored in the bottom of the box large
enough to allow the waste water to
run away freely. A belt, made from
an ordinary sash cord, was nm from
the small pulley on the waterwheel to
a large pulley, as shown in Fig. 1. A
pitman was attached to the large pul-
ley, which operates the washing ma-
chine by ita reciprocating motion, and
the length of the stroke is adjusted by
moving the position of the hinge joint
on the arm of the washing machine, as
shown in Fig. 2. The pressure at the
nozzle is about 20 lb. per square inch,
and is sufficient to dnve the water-
wheel under all ordinary circum-
stances. — Contributed by I'. J. O'Qara,
Anhnm, Cal.
d by Google
An Optlcml UliisiMi
When looking at the accompanying
nketch yon will say that the letters are
alternately inclined to the right and
left. They are not so
and can be proved by f]
measuring the distance I
of the top and bottom of !
any vertical strokes from |
the edge of the entire <
block. They will be |
found to be exactly the j
same distance. Or take I
any of the horizontal I
strokes of the four let- '
ters and see how far their ■
extremities are from the
top and bottom of the entire block. It
will be found that a line joining the
extremities of the strokes are strictly
parallel to the top or bottom and that
they are not on a slant at all. It is the
slant of the numerous short fines that
go to make up the letter as a whole
that deceives the eye.
the hole in the wood. Cut out a piecn
from the block combination, leaving it
shaped like a bench, and glue the bot-
toms of the legs to a piece of thin board
about S^ in. square for a support.
Home-Made Micrometer
It often becomes necessary to find the
thickness of material so thin, or incon-
venient to measure, that a rule or other
measuring device will not serve the pur-
pose. A simple, fairly accurate, and
easily made apparatus of the microme-
ter form may be constructed as shown
by the accompanying sketch. Secure a
common iron or brass bolt about i-in,
in diameter and about S) in. long, with
as fine a thread as possible, and the
thread cut to within a short distance of
the head of the bolt. The head of the
bolts should have a slot cut for the use
of a screwdriver. Clamp together two
blocks of wood with square comers
which are about 1 in. wide, J in. thick
and 3^ in. long and fasten them to-
gether with small pieces nailed across
the ends. The width of the blocks will
then be about 3 in. Bore a ^-in. hole
through the center of the blodcs in the
2 in. direction, fiemove the clamp and
set the nut into one of the blocks, so
that till hole will be continuous with
Solder one end of a stiff wire that
is about 2 in. long to the bead of the
bolt at right angles to the shaft, and
fix a disc of heavy pasteboard with a
radius equal to the length of the wire,
and with its circumference graduated
into equal spaces, to serve in measuring
revolutions of the end of the wire, to
the top of the bench. Put the bolt in
the hole, screwing it through the nut.
and the construction is con.plete. The
base is improved for the measuring
work by fastening a small piece of wood
on the board between the legs of the
bench. A small piece of metal is glued
on this piece of wood at th,e point where
the bolt meets it.
Find the number of threads of the
screw to the inch by placing the bolt on
a measuring rule, and counting the
threads in an inch of its length. The
bolt in making one revolution will de-
scend a distance equal to the distance
between the threads.
d by Google
Tbe device is used by placing the ob-
ject vhoee thickneBS is to be measured
on the base under the bolt, and ecrew-
ing the bolt down until its end ]ust
touches the object, then removing the
object, and screwing the bolt down until
its end just touches the base, carefully
noting while doing so the distance that
the end of the wire moves over the scale.
The part of a rotation of the bolt, or the
ntunber of rotations with any additional
parts of a rotation added, divided by
the number of threads to the inch, will
be the thickness of the object. Quite
accurate measurements may be made
with this instrument, says the Scientific
American, and in the ateence of the ex-
pensive micrometer, it serves a very use-
ful purpose.
Another Electric Lamp Bxperlmcot
Break a portion of the end off from
a 16-cp. globe that has been thrown
away as useless. Shake the globe until
all the filament is broken away, leav-
ing only the ends of the platinum wire
ezposed. Screw the globe into a socket
that sets upright and fill it with salt
water. Make one connection to the
socket from the positive wire of a 110- '
volt circuit and the other to a ground.
When the current is turned on small
stars will be seen in the globe, which
show np fine at night. — Contributed by
Lindsay UcMillan, Santa Uaria, Cal.
Two or three applications of milk
which are wiped up with a dry cloth
will remove indta ink spots on carpets.
■W* Md To» vim
Peat ot BaJancInK mi Cbalrs
Among the numerous physical exer-
cises is the feat of balancing on the two
rear legs of a chair while one foot rests
on the front part of the seat and the
other on the back of the chair. This
may appear to be a bard thing to do,
yet with a little practice it may be ac-
complished. This exercise is one of
many practiced by the boys of a boya'
home for an annual display given by
them. A dozen of the boys will mount
chairs at the same time and keep them
in balance at the word of a command-
ing ofBcer.
How to Make a Merry^lo-Roaad
SwlDC
A 6 by 6-in. piece of wood 12 ft. long
is used for the center pole. Bore a J-
in. hole in each end to a depth of 6 in.
Place a 3-in- bolt in each hole, the bolt
being long enough to protrude 2 in.
beyond the end of the wood. Short
pieces of wood are nailed on the center
pole about 2 ft. from the end that is
to be used for the bottom. This should
form a hub on which to place the inner
ends of the extending spokes that hold
the platform. The spokea
are made from twelve
pieces of 2 by 4-in. mate-
rial 12 ft. long.
Usually a wneel can be
found in a scrap pile
suitable to place on the
pin that is in the top
end of the center pole
The wheel should be open
Digitized byGOOgIC
or have spokes. This wheel is iised to at-
tach wires for guying. The bottoip pin
in the center pole is placed in a hole
that is bored into a block of wood
about 13 in. square and 3 or 4 in.
thick. A piece of sheet metal should
be drilled and placed on the pin be-
tween the block and end of the pole
to make s smooth bearing. The center
pole is now placed in position and
guyed with six wires that are about
35 ft. long. Stakes are driven into the
ground and the wires fastened to them
and to the wheel at the top end of the
pole. Care should be taken when at-
taching the wires to get the center
Eole to stand perpendicular. Twelve
ooks should be placed at equal dis-
tances around the center pole about 1
ft, from the top end. Wires are fast-
ened to these hooks and to the twelve
2 by 4-io. piec^ used for the spokes.
The wires siioula be tied around each
spoke about 3 ft. from the ends. Space
the spokes with equal divisions and
cover the outer 2 ft. of the ends with
boards, as shown in the plan sketch on
the right hand end of the drawing.
The boards may be nailed or bolted.
If bolted and the vires made in a
loop at the hooks, the swing can easily
be taken apart and changed from one
place to another. — Contributed by A.
0. Graham, Fort Worth, Tex.
nom^Made Arc Lamp
The frame of the lamp is made from
bar metal | in. vide and | in. thick,
bent and welded
to make a con-
tinuous loop in
the shape as
shown at Q in
the sketch. This
frame should be
about 10^ in.
long with the up-
per or wider part
4 in. long, and
the lower part 6^
in. long. The
width should be
about 5^ in. at
the top and 4 in. at the bottom. A
cross bar, L, made of the same mate-
rial, is fitted into the off-set in the
frame and riveted. Holes are drilled
throneh the frame and brass bushings,
H and J, are fitted for bearings to re-
ceive the adjusting brass rod, B, vhich
should be i in. in diameter. A brass
curtain rod can be used for the rod B,
and on its lover end a socket, P, is
soldered.
A piece of brass 2 in, long, i in. wide
and i in. thick is used for the arma-
ture, A, to be operated by the magnet
coil, C. The coil, C, is made in the
usual manner by wrapping No. 14 cot-
ton-covered magnet wire on a vooden
spool that has a soft iron core. The
spool is about 2^ in. long. The arma-
ture, A, ia drilled, making a hole just a
little larger than the rod, B, and is ad-
justed in place by two set screws, D
and E. A soft piece of iron, F, is fast-
ened to the opposite end of the arma-
ture with a screw, which should be
placed directly under the end of the
coil's core. This end of the armature
may be kept from swinging aronnd by
placing it between a U-shaped piece of
brass listened to the cross piece L. At
the bottom end of the frame, and di-
rectly centering the holes H and J, a
hole is drilled to receive a hard rubber
bushing, R, for insulating the brass fer-
rule, S, that holds the lover carbon.
One connection is made from the
main to the upper binding-post, vhich
is in turn connected to one terminal
of the coil, C, the other coil terminal
being attached to the frame. The other
main connection is made to the lover
binding-post, which is also connected
to the brass ferrule, S, by soldering.
The two binding-posts are insulatS
from the frame the same as the ferrule
S. When using on a 110-volt circuit
there mnst be some resistance in con-
nection, which may be had by neing
german silver wire, or a water rheostat
heretofore described. — Contributed by
Arthur D. Bradley, Eandolph, Mass.
The Mexican government has appro-
priated $25,000,000 for irrigation
work.
d by Google
How to Hang Your Hat on a
I<ead Pencil
Take a smooth hexagon lead pencil,
one without either rubber or metal
end, and place it against a door or
window casing ; then with a firm,
heavy pressure
slide the pencil
some 3 or 4 in.
and it will stay as
if glued to the
casing. You may
now hang your
hat on the end of
the pencil.
When you
slide the pencil
along the casing, do it without any
apparent effort, and it will appear to
your audience as though you had hyp-
notized it. This is a very neat trick
if performed right. Figure 1 shows
the pencil on the casing and Fig. 2 the
hat hanging on it.
Tying a Knot for Footballs
One of the most prominent English
football clubs kept the tying of this
knot on the rubber hose of their foot-
ball a secret and never allowed all of
its members to know how it was tied.
This tie can be used on grain sacks,
and in numerous other like instances.
Make one loop in the cord and then
another exactly the same way, as
A Sccarc Knot
shown in Fig. 1, placing the end of
the cord under the first loop, then
pulling at each end of the cord as in
Fig. 2.— A. E. J.
CStove polish consists of 8 parts
graphite, 4 parts copperas and 2 parts
boneblack, mixed with water to form
a paste.
How to Give an Electric Shock
WbUe Shaking Hands
There is nothing quite so startling
as to receive an electric shock unex-
pectedly and such a shock may be
given to a friend while shaking hands
upon meeting. The shock produced
is not harmful and the apparatus can
be carried in the pocket. It consists
of a small induction coil that can be
constructed at home.
The core of the coil. A, Fig. 1, is con-
structed in the usual manner, of
small soft-iron wire to make a bundle
about ^ in. in diameter and 2 in. long.
The coil ends are made from card-
board, about 1 in. in diameter, with
a -^-in, hole in the center. The hole
Deuili of lodnctlon Ci
should be cut as shown in Fig. 2, so
as to have four small pieces that can
be bent out, leaving the projections as
shown. After wrapping three or four
turns of paper around the bundle of
wires the cardboard ends are put on
with the projections inSide, so the coils
of wire will hold them in place. About
70 turns of No, 34 gauge double-
covered magnet wire is first placed on
the core, for the primary, and then
1,500 turns of No. 32 or 34 gauge
double -cove red wire is wrapped on top
of the primary, for the secondary. Suf-
ficient length of wire must be left out-
side at each end of both windings to
make connections. The vibrator B,
Fig. 1, and the support C are made
from thin spring steel, about % in.
wide, bent as shown and securely
fastened to the cardboard end of the
coil. The armature is made from a
soft piece of iron, about -^ in, in
diameter and -^ in, thick, which is
z: Iv^jOOglC
soldered to the end of the vibrator di-
rectly opposite the end of the core. A
small screw is fitted in the end of the
support, C, for adjustment, which
Bhould be tipped with platinum and
abo a small piece of platinum placed
where the screw will touch the vibra-
tor, B.
One of the primary wires ia con-
nected to the screw support. The vi-
brator is connected to a da&h lamp bat*
tery, D. The other primary wire is
connected to a switch, S, which in turn
is connected to the other terminal o!
the battery. The switch, S, may he
made from a f-in. cork with the wire^
put through about ^ in. apart and
allow them to project about ^ in. The
plate £ is cut about ^ in. square from a
piece of copper and is fastened to the
heel of one shoe and connected with a
wire from the secondary coil which
must be concealed inside of the troneer
leg. The other secondary wire is con-
nected through the coat sleeve to a
finger ring, F. The vibrator screw must
be properly adjusted. When the vi-
brator is not working the armature
should be about ^ in. from the core
and directly opposite.
The coil when complete will be about
2i in. long and 1 in. in diameter. The
coil can be placed in an old box that
has been used for talcum powder or
shaving stick. The space around the
coil in the box can be filled with paper
to keep it tight.
The coil ai;d battery are carried in
the pockets and the cork button put in
the outside coat pocket, where it can
be pressed without attracting attention.
Experiment with Heat
Place a small piece of paper, lifted,
in an ordinary water
glass. While the pa-
per is burning turn
the glass over and set
into a naucer pre-
viously filled with
water. The water
will rapidly rise in
the glass, as shown in the sketch.
How to Attach a Comblaatloa
Trunk Lock
A small combination lock for chests
can be purchased for a small sum of
money and attached to a trunk cover
after first removing the old lock as
shown in Fig. 1. It is necessary to
add ^ in. to the thickness of the trunk
lid or cover. This may be done by
placing a brass plate i in. thick on the
outside and a board f in. thick on the
inside. The lock, brass plate, hoard
and trunk cover are all securely riveted
together. The support for the dial is
soldered to the brass plate.
The hasp, if that be the name for
the double toothed arrangement that
catches into the lock, was to be se-
cured by only three brass screws, which
seemed to be insufficient, says a cor-
respondent of the Metal Worker;
therefore a piece of heavy tin was
formed over the front of the trunk,
which is only f-in. board, the hasp
tinned and soldered to the back of the
now TT-phaped tin. and the tin placed
over the board and all fastened in pod-
d by Google
tion. The tin is 4 in. wide, 16 in.
long and when placed over the board,
it laps down about 8 in. between the
boards, and the same distance inside
of the new board, as shown by the
heavy line in the cross section, Fig, 1.
Wrought nails are used which pass
twice throngh the tin and both boards,
and then well clinched. The three
screws were then put in the hasp.
The knob on the dial extends out
too far, which may be filed ofF and two
holes Babetitated, as shown, with which
to operate the dial. An old key is filed
down in the ehape shown in Fig. 2 to
fit the two holes.
As the dial is convex it will need
protection to prevent injuiry by rough
handling. A leather shield may be
used for this purpose, which is cut
with two boles, one for the key and
the other to permit the operator to
observe the numbers on the dial. The
shield answers a further purpose of
preventing any bvstander from notidg
the numbers oa the diaL
AN ELECTRIC ILLUSION BOX
The accompanying engravings show
a moat interesting form of electrically
operated illusion consisting of a box
divided diagonally and each division
alternately lighted with an electric
lamp. By means of an automatic ther-
mostat arranged in the lamp circuit
causing the lamps to light successively,
an aquarium apparently '
without fish one moment
is in the next instant
swarming with live gold
fish ; an empty vase
viewed through the open-
ing in the box suddenly
is filled with flowers, or
an empty cigar box is
seen and immediately js
filled with cigars.
Iliese electric magic
boxes as shown are made
of metal and oxidized copper finished,
but for ordinary use they can be made
of wood in the same shape and size.
The upper magic boxes aa are shown in
the engraving are about 12 in. square
and 8i in, high for parlor use and the
lower boxes are 18 in. square and 10^
in. high for use in window diiiplays.
There is a partition arranged diagonally
in the box as shown in the plan view,
which completely divides the box into
two parts. One-half the partition is
fitted with a plain, clear glass as shown.
The partition and interior of the box
are rendered non-refiecting by painting
with a dull, not shiny, black color.
When making of wood, a door most be
provided on the side oi rear to make
changes of exhibits. If the box is made
large enough, or in the larger size men-
tioned, openings may be made in the
bottom for this purpose, and also used
in case of performing the magic trick
of allowing two persons to place their
OomtnicUiHi or tKagfe Bosa*
heads in the box and change from one
to the other.
The electric globes are inserted as
shown at LL through the top of the
box, one in each division. When the
rear part is illuminated, any article
arranged within that part will be vis-
ible to the spectator looking into the
box through the front opening, but
when the front part is illuminated, and
the back left dark, any article placed
therein will be reflected in the glass,
which takes the same position to the
observer as the one in the rear. Thus
a plain aquarium is set in the rear part
and one with swimming fish placed in
d by Google
Four ElMtric Ma^ Boia* Oompleta fOr U»
the front, and with the proper illumi-
nation one ia changed, as it appears,
into the other. When using as a win-
dow display, place the goods in one
part and the price in the other. Uany
other changes can be made at the will
of the operator.
Electric lamps may be controlled by
various means to produce different ef-
fects. Lamps may be connected in
parallel and each turned on or off by
means of a hand-operated switch or the
button on the lamp Bocket, or if de-
sired a hand-operated adjustable re-
sistance may be included in the circuit
of each lamp for gradually causing the
object to fade away or reappear slowly.
Instead of changing the current op-
erated by hand, this may be done anto-
matically by connecting the lamps in
parallel on the lighting circuit and each
connected in series with a thermostatic
switch plug provided with a heating
coil which operates to automatically
open and close the circuit through the
respective lamp.
When there is no electric current
available, matches or candles may be
Qsed and inserted through the holes H,
as ahown in the sketch, alternately.
fainting over putty that has not be-
come dry will cause scaling or cracking
aiound the edges of the putty.
Photo Priat WashtoK Tank
The accompanying sketch shows a
simple form of a print washing tank
that tips from aide to i^ide by the weight
of the water. Fo; prints 4 by 6 and
6 by 7 in. a tank 3 ft. long and 1 ft.
wide will be about the right size. This
tank is then divided with a partition
placed exactly in the center. This par-
tition should, extend 3 or 1 in. above
the top of the tank. The partition
may also estend below the tank about
1^ in., or a piece of this width put on
the bottom, as shown at A in the sketch.
Kmpi Print! OonitantJy Moving
A row of holes about ^ in. in diameter
is bored through each end of the tank,
as shown at B. These holes will allow
the water to spill out while the oppo-
site side is filling. The tank may be
made from ^in. material and when
d by Google
completed as Bhown, lined with oil clotli
to make it watertight. The tank is
placed with the partition directly nnder
a water tap and the Sow of water will
cause it to tip from time to time, keep-
ing the printe constantly moving about
in the water.
Home-Made Stdderiog Clamps
Take a cotter pin and bend it over
a small rod to bring the pointa together,
as shown in the sketch. This will make
a spring clamp that is
opened to slip over the
articled to be clamped
together by inserting a
scratch awl or scriber
between the legs at the
bowed portion. To
make a more positive
clamp before bending
the legs to a bow, slip a
short coil of wire over
the pin, passing it down
to the ring end. Wire
^/ij in. in diameter wound over a wire
slightly larger in diameter than that of
the cotter will do. In soldering, smoke
the legs well to avoid solder adhering
to them. The clamp is tightened by
pushing up the coil ring toward the
bow of the legs and then twisting it like
a nut, the coil being wound right-
handed, so that it will have a screw
effect
A Tdeptione Experiment
If the small apparatus, as shown in
the accompanying sketch, is attached
to the under side of an ordinary dining
table, it will, if connected to a tele-
phone circuit, set the table in vibra-
tion, so that any number of people
who put their ears flat upon the table
will hear the voice of a person speak-
ing from a distance, apparently com-
ing out of the table, says the llodel
Engineer.
A small piece of wood. A, Fig, 1, is
cut about 5 in. square, to the center
of which is attached a email piece of
•oft iron wire, such as used for cores
MM^HUitcal T*bl* Talk
of induction coils, about i in. long and
bent in the form of a hook at the lower
end, as shown at B. This wire is at*
tached to the block of wood, A, as
shown in Fig. 2. The end of the
wire is soldered to a small brass plate
which is set in the block so it will
be level or flush with the top of the
block and then fastened with two
screws. The block A is fastened to the
under side of the table with two screws.
A email coil, C, is made by winding
No. 24 silk or cotton covered wire
around a small tube, either a piece of
glass, a short straw or a quill. The
coil is made tapering as shown without
using wood ends. This coil is slipped
over the wire B previoui, to soldering
it to the small brass plate. The enib
of the coil are connected to two bind*
ing'posts which are fastened lo the
block A. A small lead weight weigh-
ing 2 or 3 oz. is hung on the hook made
in the lower end of the wire B,
When all connections are made, as
shown in Fig. 1, and the block fas-
tened to the under side of the table,
the apparatus is ready for use, and has
only to be connected to an ordinary
telephone transmitter and batteries as
shown. The apparatus will work to a
certain extent even if the weight is re-
moved, though not so clear.
Some workmen use tallow on lag or
wood screws. Try beeswax for this
purpose. It is much cleaner to use and
is just as good if not better.
Digitized byGOOgIC
How to Make ao Inductloa Coll
A small ehocking coil, suitable for
medical purposes, may be constructed
of materials found in nearly ever; ama-
teur mechanic's collection of odds and
euds. The core, A, Fig. 1, is a piece
of round soft iron rod
about i in. in diameter
and about 4 in. long.
A strip of stiff paper
abont 3 in. wide is cov-
ered with gine and
wrapped sronnd one end
of the core, as shown
at B, until the diameter
is about f in. The por-
tion of the core remain-
ing oncovered is then wrapped with a
piece of paper about 4 in. wide. No
glue is used on this piece, as it is
removed later to form the space, C,
after the paper shell, D, has been
wound upon it This paper shell is
made of stiff paper and glue the same
as B and is made about 3/64 in. thick.
Two pieces of hardwood, EE, 1} in.
square and about -fit in. thick, are
drilled in the center and glued on the
ends of the paper shell as shown.
The primary winding consists of 4
or 5 layers of No. 18 or 20 single
cotton-covered magnet wire, the ends
of which may be passed through small
holes in the wooden ends. If a drill
small enough is not available, the holes
may be made with a hot knitting
needle or a piece of wire heated to
redness. After the primary coil is
wound it should be thoroughly in-
sulated before winding the secondary.
This may be done by wrapping witti
4 or 5 thicknesseo of paper.
The secondary coil should be wound
with single covered wire, preferably
silk-covered, although cotton will do.
The more turns there are on the sec-
ondary the higher the voltage will be,
so the wire used must be fine. Num<
her 38 to 36 will give good results, the
latter giving more voltage bat less am-
perage. Each layer of the secondary
winding should be insulated from the
others by a piece of thin paraffined
paper wrapped ■
it is finished.
each layer as
is weU not
to wind to the extreme ends of the
paper insulations, but to leave a space
of about i in. at each end of the wind-
ing to prevent the wires of one layer
slipping over the ends of the parafBn
paper and coming in contact with the
layer beneath, thus causing a short cir-
cuit. The secondary winding should
have at least a dozen layers and should
be carefully wound to prevent short
circuiting.
In order to reduce the strength of
the current a piece of brass tubing,
F, is pushed into the space, C, sur^
rounding the core, or if no braaa tub-
ing of the required size is on band, roll
a paper tube, cover with 4 or 5 thick-
nesses of tinfoil and then vrrap witii
more paper, using glue to hold uie tin-
foil in place and to keep the tube from
unwinding. When the tube is pushed
all the way in, the current produced
*
— i
^.^ J0Z::
_ '^^::i
>». 1
will be almost unnoticeable, bnt when
it is withdraws the current will be so .
strong that a person cannot let go the
handles until the coil is shut off. After
the secondary coil is wound it should
be covered with stiff paper, and the
whole eoil, including the wood ends,
abould then be enameled black.
It is then ready to be mounted on a
wooi&a base as shown in Fig. S. The
d by Google
secondary terminals ore connectecl to
the binding-postB, AA, which ma; be
fastened on the base if desired. One
wire from the prima^ is connected
vith the binding-post, B, and the other
is connected with the armature, D,
which may be taken from an old elec-
tric bell. The contact screw, E, also
from an electric bell, is connected to
the binding-post, C. The contact
spring, F, ahonld be bent against and
soldered to the armature in order to
make the vibrations more rapid.
If a false bottom is used on the base,
all the wiring may be concealed, which
adda greatly to the appearance, and if
desired a small switch may be added.
The handles, which may be old bicycle
pumps or electric light carbons, are
connected to the binding-posts, A A, by
means of wires about 3 or 1 ft long.
This coil when operating with the tube
pulled all the way out and connected to
a single dry cell will give a current
stronger than most persons can stand.
Home-Made Toaster
Each outside frame of the toaster
is made from one piece of wire 30 in.
long. These are bent in a perfect
square making each side 7 in. long.
This will allow 1 in. on each end for
tying by twisting the ends together.
The first two wires inside and on each
side of each frame are 8 in. long.
Eight wires will be required for this
purpose and as they are 8 in. long ^
in. is allowed on each end for a bend
around the outside frame, aa shown
in the sketch. The two middle wires
are extensions of the handles. Each
of these wires are made from a piece
about ZG in. long and bent in the eiiape
of a n. The ends of the wire are bent
around the frame in the same manner
as the other wires. This Till leave the
handle laying across the other side of
the frame. The frame is fastened to
the handle on this side by giving the
handle one turn around the frame.
The inside edges of the frame are now
tied together with a small ring of wire
which is loose enough to allow each
half to swing freely. — C. D. M.
Home-Made Sbocklnc Alachine
An ordinary electric bell may be
connected up in such a way as to pro-
duce the same results as an expensive
InnpMitJT* and E(f*ctiMl
shocking machine. Tlie connections
are made from the batteries to the bell
in the usual manner. Two other wires
are then connected, one to the bind-
ing-post of the bell that is not insu-
lated from the frame and the other to
the adjusting screw on the make and
break contact of the bell as shown in
the sketch. The other ends of the
wires are connected each to a common
table knife. This will give quite a
good shock and a much larger one can
be had by placing one knife in a basin
of water and while holding the other
knife in one hand, dipping the fingers
of the other hand in the water. — Con-
tributed by D. Foster Hall.
Mix Venetian red with quite thick
arable muscilage, making it into a
putty, and press this well into the
cracks of mahogany before finishing.
The pnt^ should be colored to suit the
finish of the wood, says the Master
Painter, by adding sui^ dry color to
the gam aa will give the best i^ult
Digitized byGOOgIC
How to Hake a Thermoetectric a lighted match, or, better still, the
Battery flame of an alcohol lamp is placed at
.,A«THOi.E.jOKi.iK onj end only. ^. . . ^ „.
Best results are obtamed by putting
A novel way of producing an elec- ice or cold water on one side and a
trie current by means of hot and cold flame on the other. The experimenter
water, heat from a match or alcohol may also place the whole apparatus
under sink faucets with the hot water
turned on at one terminal and the cold
water at the other. The greater the
difference of temperature in the two
terminals, the more current will be ob-
tained.
Very interesting experiments may
thus be performed, and these may lead
to the solving of the great thermo-
electric problem.
lamp, is obtained from a device con-
structed as shown in the sketch. Take
two hardwood boards, marble, or slate
plates, about d or 10 in. long, place
them together, as in Fig. 1, and mark
and drill about 500 holes. These two
pieces should be separated about 8 in.
and fastened with boards across the
ends, as shown in Fig. 8.
Take soft copper wire, not smaller
than No. 18 gauge, and cut in lengths
to pass through the holes in the two
boards, leaving sufficient end to make
a tie. It will require about 70 ft. of
wire to fill one-half the number of
holes. Also, cut the same number of
lengths from the same gauge galvan-
ized-iron wire to All the remaining
holes. The wires are put through the
holes in the boards alternately, that is :
begin with copper, the next hole with
iron, the next copper, the next iron,
and so on, twisting the ends together
as shown in Fig. 3. The connections,
when complete, should be copper for
the first and iron for the last wire.
When the whole apparatus is thus
strung, the connections, which must be
twisted, can be soldered. Connect one
copper wire to the bell and the other
terminal, which must be an iron wire,
to the other post of the bell. The appa-
ratus is then short-circuited, yet there
is no current in the instrument until
How to Make a Hygrometer
Mount a wire on a board which is
used for a base and should be % by
4 by 8 in., as shown in the sketch. A
piece of catgut — a string used on a
violin will do — is suspended from the
bent end of the wire. A hand or
pointer is cut from a piece of tin and
secured to the catgut string about %
in. from the base. A small piece of
wood and some glue will fasten the
pointer to the string. The scale is
marked on a piece of cardboard, which
is fastened to the base and protected
with a piece of glass. — Contributed by
J. Thos. Rhamstine.
Softening Leather in Gloves and Boots
The leather in high-top boots and
gauntlet gloves may be softened and
made waterproof by the use of plain
mutton tallow. Apply hot and rub in
well with the fingers.
d by Google
How to Make a Mission Library Table
The miesioD library table, the draw- rails, 2 pieces | in. thick, 6 in. vide and
ings for which are here given, has been 25 in. long. Olher specifications as for
found well proportioned and of pleas- the side rallE.
ing appearance. It can be made of For the stretchers, into which the
any of the several furniture woods in shelf tenons enter, 2 pieces IJ in. thick,
common use, such as
selected, quarler-sawed
white oak wliich will lie
found exceptionally
pleading in the effect
produced.
If a planing mill is
at hani) the stock can
be ordered in such a
way as to avoid the
hard work of planing
and sandpapering. Of
course if mill-planed
stock cannot be had, the
following dimensions
must be enlarged slight-
ly to allow for "squar-
ing up the rough."
For the top. Older 1 -n,,, p|rtur»Uf(wn«Photo9riphof *• MiMlon Tafalo DMcrlbad
piece IJ in. thick, 34 in Thi. Artiei*
in. wide and 46 in. long.
Have it S-4-S (surface on four sides) 3i in. wide and 25 in, long, surfaced
and "squared" to length. Also, specify and sanded on four sides. For the
that it be sandpapered on the top sur- slats, 10 pieces g in. thick, I) in. wide
face, the edges and ends. and 17 in. long, surfaced and suided oa
For the shelf, order 1 piece J in. four sides. For the keys, 4 pieces } in.
" ■ ■ " ' ." ■ . ■■■' thick, H in, wide and 2} in. long,
S-4-S. This width is a little wide; it
will allow the key to be shaped as
desired.
The drawings obviete any necessify
for going into detail in the descrip-
thick, 22 in. wide and 42 in. long, with
the four sides surfaced, squared and
sandpapered the same as for the top.
For the side rails, order Z pieces } in.
thick, 6 in. wide and 37 in. long, S-4-S
and sanded on one side. For the end
d by Google
tion. Fig. 1 gives an assembly draw-
ing showing the relation of the parts.
Fig. 2 gives the detail of an end. The
tenons for the aide rails are laid off
and the mortises placed in the post as
are those on the end. Care must be
. taken, however, not to cut any mortises
on the post, below, as was done in cut-
ting the stretcher mortises on the ends
of the table. A good plan is to set the
posts upright in the positions they are
to occupy relative to one another and
mark with pencil the approximate posi-
tions of the mortises. The legs can
then be laid flat an* the mortiBcs accur-
rately marked out with a fair degree
of assurance that they will not be cut
where they are not wanted and that the
legs shall "pair" properly when effort is
made to assemble the parts of the table.
The table ends should be glued up
first and the glue allowed to harden,
after which the tenons of the shelf may
be inserted and the side rails placed.
There is a reason for the shape, size
and location of each tenon or mortise.
For illustration, the shape of the tenon
on the top rails permits the surface of
the rail to extend almost flush with the
surface of the post at the same time
permitting the mortise in the post to
be kept away from that surface. Again,
the shape of the ends of the slats is
such that, though they may vary
slightly in length, the fitting of the
joints will not be affected. Care must
be taken in cutting the mortises to keep
their sides clean and sharp and to size.
In making the mortises for the keyed
tenons, the length of mortise must be
slightly in excess of the width of the
tenon — about ^ in. of play to each side
of each tenon. With a shelf of the
width specified for this table, if such
allowance is not made so that the tenons
may move sidewaj's, the shrinkage
' would split the shelf.
In cutting across the ends of the
shelf, between the tenons, leave a hole
in the waste so that the turning saw or
compass saw can be inserted. Saw
within one-sixteenth of the line, after
which this margin may be removed with
chisel and mallet.
In Fig. 3 is shown two views of the
keyed tenon and the key. The mortise
for the key is to be placed in the middle
of the tenon. It will be noted that this
mortise is laid out 1-^ in. from the
shoulder of the tenon while the
stretcher is IJ in. thick. This is to
insure the key's pulling the shelf
d by Google
tightly against the side of the stretcher.
Keys may be made ia a variety of
shapes. The one showB is simple and
etnicturally good. Whatever ^ape is
used, the important thing to keep in
mind is that the size of the key and the
slant of its forward surface where it
passes through the tenon must be kept
the same as the mortise made for it in
the tenon.
The top is to be fastened to the rails
by means either of wooden buttons. Fig.
4, or small angle irons.
There are a bewildering number of
mission finishes upon the market. A
very satisfactory one is obtained by ap-
plying a coat of brown Flemish water
stain, diluted by the addition of water
in the proportion of 2 parts water to
1 part stain. When this has dried, sand
with number 00 paper, being careful
not to "cut through," Next, apply a
coat of dark brown filler; the directions
for doing this will be found upon the
can in which the filler ie bought. One
coat usually suffices. However, if an
especially smooth surface is desired a
second coat may be applied in a similar
After the filler has hardened, a very
thin coat of shellac is to be put on.
When this has dried it should' be
sanded lightly and then one or two
coats of wax tJiould be properly applied
and polished. Directions for waxing
are upon the cans in which the wax is
bought. A beautiful dull gloss so much
sought by finishers of modem furniture
will be the result of carefully following
these directions.
A Haoye r tor T rousers
Secure two clothes pins of the metal
spring kind for the clamps of the
hanger. The pins
are fastened one
to each end of a
looped galvanized
wire. This wire
should be about
6 in. long after a
coil is bent in the center as c^own in
the sketch. The diameter of the wire
should be about i in.
How to Make an Adjustable N^-
atlve Washer
The sketch herewith shows a wash-
ing box for negatives made from an
ordinary wooden box. As can be seen,
the grooved partition, A, is removable,
and as several places are provided for
Waihing Box
its insertion, the tank can be mad* to
accommodate any one of several sizes of
plates, says Camera Craft. The other
Btationary partition, B, which does not
reach quite to the bottom of the tank,
is placed immediately next to the end of
the tank, leaving a channel between the
two for the inflow of the wash water.
A narrow, thin strip, C, is fastened to
the bottom of the tank to keep the
plates slightly raised, at the same time
allowing a clearer flow of the water
from the bottom upwards to the dis-
charge.
The water enters the narrow parti-
tion at the end, flows under the parti-
tions B and A, then upward between
and parallel to the surface of the plates,
escaping at the opposite end over the
top of the tank end, in which the up-
per part has been cut away for that
purpose. The depth of this cut, in the
upper part of the tank end, should allow
the overflow to be a trifle higher than
the width of the largest size plate for
which the tank is fitted. Partition B
being stationary, can be nailed in posi-
tion permanently, allowing the bottom
edge to clear the bottom of the tank the
desired distance. Partition A being
movable should have attached to its
ioog Ic
bottom edge a couple of nails, D, or bet-
fer still, wooden pegs, which will keep
it also above the bottom of the tank &t
the desired height.
A coat of paraffin paint should be
applied, and, just before it seta per-
fectly hard, any rough spots trimmed
down with a knife or chisel and a sec-
ond lighter coat applied. If the wood
is very dry and porous a preliminary
coat of the paint should be applied and
allowed to soak into the pores. It is
also well to apply a coat of the paint
to the joints at the corners and around
tiie edge of the bottom before nailing
together.
TurD-Down Shelf (or a Small Space
The average amatear photographer
doea not have very much space in which
to do hia work. The kitchen is the
room used ordinarily for finishing the
photographs. In many instances there
will not be space enough for any extra
tables, and so a temporary place is pre-
pared from boxes or a chair on which
to place the trays and chemicals.
Should there be apace enough on one
of the walls a shelf can be made to
hang down out of the way when not in
use. A ahelf constructed on this order
may be of any length to suit the space
or of snch a length for the purpose in-
tended. A heavy piece of wood, about
Turn -Down Shelf
1^ in. thick, and 4 to 6 in. wide, is
first fastened to the wall at the proper
height with nails, or, much better, large
flCrews.
The shelf is cut and planed smooth
from a board 12 in. wide and about
1 in. thick. This b(»rd is fastened to
the piece on the wall with two hinges
as shown in Fig. 1. A small cleat it
nailed to the outer and under edge of
the board and in the middle as shown.
This is used to place a support under
the outer edge of the shelf. The sup-
port, A, Fig. 2, should be long enough
to extend diagonally to the floor or
top of the baseboard from the inner
edge of the cleat when the ahelf is up
in its proper place. — L. L.
Home-Alade Electric Battery
Massage
A simple and cheap electric massage
device can be made by using three or
Tum-Down Shelf
four cells of dry battery connected to
two ordinary silver tablespopns, as
shown in the sketch. The handles of
the spoons should be insulated or the
oprator can wear either kid or rubber
gloves.
How to Make Tint Lantern Slides
Purchase some lantern slide plates
and fix them in hypo without exposing,
in the usual manner, same as you would
an exposed plate, says the Moving Pic-
ture World. This leaves a thin, per-
fectly transparent emulsion film on the
glass, which will readily take color.
Mix a rather weak solution of clear
aniline dye of the desired color and
dip the plate in it, wiping the plate
side clean. If not dark enough, dip
again and again until desired tint is
attained, let^ng it dry between each
dipping. A very light blue tint slide
will brighten a yellow film considera-
bly, but the tint must be very ligh^
jiut a bare tint.
d by Google
A Bicycle Catamaran
The accompanying photographs show
a bicycle boat made to carry two per-
directly through large waves instead of
f)ing ever them. — Contributed by
rneet Scboedsack, Council Blufie,
Iowa.
Thia CatanMKn Carrl** Two Paopia
sons. This boat is constructed by using
two galvanized iron tubes 18 ft. long
and IS in. in diameter, tapered at the
front end down to cast-iron points, and
the rear end shaped to attach mdders.
These tubes are placed 26 in. apart,
giving the boat an extreme width of
50 in.
The cylinders support a platform and
on the rear end of this platform is con-
structed s paddle wheel 63 in. in
diameter wiu 16 spokes. On the end
of each spoke is fastened a galvanized
sheet metal blade 6 in. wide and 8 in.
long. A targe guard placed over the
paddle wheel forms a seat for one per-
son and a chair in front on the plat-
form provides a place for a second
person.
The person in front helps to propel
the boat with hand levers whidi are
connected with rods to sprocket wheels
on each side of the platform. The
occupant of the rear seat contributes
his part of the power with his feet on
pedals of the shaft that carries the
sprocket wheels. This shaft and
sprocket wheels drive the paddle wheel
by side chains of the bicycle kind. The
boat is steered from the rear seat by
ropea attached to double rudders. This
boat will run at considerable speed and
is very steady in rough water as it goes
How to Make a Lead Peocil
Rheostat
Take an ordinary lead pencil and cut
seven notches at equal intervals on the
pencil down to and around the lead,
leaving it bare. A seven-point switch
is constructed on a board of suitable
size making the points by nsing screws
that will go through uie itaai. A
small piece of tin or brass will do for
a switch and is fastened as shown. The
connections are made on the back side
of the board as shown by the dotted
lines. This will reduce 40 to 50 volts
down to 5 or 10 volts for short lengths
of time. — Contributed by Boy Ifewl^^
San Joee, CaL
d by Google
Homemade Shoe Rack
The accompanying sketch explains
how a boy can make his own shoe
rack that can be placed on the wall in
the clothes closet. Figure 1 shows
the construction of the bottom to per-
mit the dirt to fall through. Two
boards, 9 in. wide and about 3 ft. long,
with six partitions between, as shown,
will make pockets about 6 in. long.
The width of the pockets at the bottom
is 8 in. and at the top 5 in. — Con-
tributed by Guy H. Harvey, Mill Val-
ley, Cal.
paint to be used. The mixture is ap-
plied to the canvas with a brush. This
is allowed to dry for two days and
then a coat of the same paint, without
the soap, is laid on. When this last
coat is dry the canvas may be painted
any color desired. After three days of
drying the canvas may be folded up
without sticking together, and is, of
course, waterproof. Canvas water-
proofed in this manner makes an ex-
cellent covering for portable canoes
and canvas boats. The color mixture
for the soap and second application is
made from 1 lb. of lampblack and 6 lb.
of yellow ocher, both in oil; the finish
coat may be any color desired. When
no paint is to be used on the canvas it
may be waterproofed with a mixture
made from soft soap dissolved in hot
water, and a solution of iron sulphate
added. Iron sulphate, or ferrous sul-
phate, is the green vitriol. The vitriol
combines with the potash of the soap,
and the iron oxide is precipitated with
the fatty acid as insoluble iron soap.
This precipitate is then washed, dried
and mixed with linseed oil.
How to Waterproof Canvas Building a House in a Tree Top
The method used by the British The accompanying photograph
navy yards for waterproofing and shows a small house built in a tree top
painting canvas so it will not become 20 ft. from the ground. The house is
Lofly Scour Box lot Guuaini; Witermeloa Pitch
Stiff and cracked is as follows: One
ounce of yellow soap and i^ pt. of hot
water are mixed with every 7 lb. of
5 ft. wide, 5 ft. 1 in. long, and 6 ft, G
in. high. A small platform, 2 ft. wide, is
built on the front. Three windows are
V \^JV..'V-'V1^_
provided, one for each side, and a a boy 14 years old and made for the
door in front. The entrance is made purpose of watching over a melon
through a trap door in the floor of the patch. — Contributed by Mack Wilson,
house. Thia house was constructed by Columbus, 0.
How to Make a Lamp Stand and Shade
A library light stand of pleasing de-
sign and easy construction is made as
follows: Square up a piece of white
oak so that it shall have a width and
thickness of 1^ in. with a length of 13
in. Square np two pieces of the same
kind of material to the same width and
thickness, but with a length of IS in.
each. Square up two pieces to a width
and length of 3 in. each with a thick-
ness of 1^ in.
If a planing mill is near, time and
patience will be saved by ordering one
piece If in. square and 40 in. long, two
pieces 1^ in. thick and 3 in, square,
all planed and sandpapered on all sur-
faces. The long piece can then be cut
at home to the lengths specified above.
The 13-in. piece is for the upright
and should have a }-in, hole bored the
full length through the center. If the
bit is not long enough to reach entirely
through, bore from each end, then use
a red-hot iron to finish. This hole is
for the electric wire or gas pipe if gas
is used.
The two pieces for the base are alike
except the groove of one is cut from
the top and of the other from ihe under
side, as shown. Shape the under sides
first. Thia can beat be done by plac-
ing the two pieces in a vise, under sides
together, and boring two holes with a
1-in. bit. The center of each hole will
be 2J in, from either end and in the
crack between the pieces. The pieces
can then be taken out, lines gauged on
each side of each, and the wood be-
tween the holes removed with turning
saw and scraper steel.
The width of the grooves must be
determined by laying one piece upon
the other; a trysquare shoiud be used
to square the lines across the pieces,
however, gauge for depth, gangii^ both
pieces from their top surfaces. Chisel
out the grooves and round off the cor-
ners as shown in the sketch, using a
|-in. radius.
These parts may be put together and
fastened to the upright by means of
two long screws from the under side,
placed to either side of the ^-in. hole.
This hole must be continued through
the pieces forming the base.
The braces are easiest made by tak-
ing the two pieces which were planed to
1^ in. thick and 3 in. squaro and draw-
ing a diagonal on each. Find the
middle of this diagonal by drawing the
central portion of the other diagonal;
at this point place the spur of the bit
and bore a l-m. hole in each block.
Saw the two blocks apart, sawing
-awONUNt
O
±
XI
JJ I
tnj^
a^
tij3
U^
-c^^-^ t..C^
=S,_^
1 1
|©| 1 1 r 1 1
i\l 1 1
.1
D«talla of CoiMtructlon of Library Lamp Stand
dbjGooglc
ftlong a diagonal of each. Plane the
aurfaceB on the aaw cut smooth and
sandpaper the curve made by the bit.'
Fasten the braces in place by means of
Tonndhead blued screws.
To make a shade such as is shown
in the illustration is rather diHicult.
The shade is made of wood glued up
and has art glass fitted in rabbets cut
on the inner edges. Such shades can
be purchased ready to attach. The
sketch shows one method of attaching.
Four small pieces of strap iron are
bent to the shape shown and fastened
to the four sides of the upright Elec-
tric globes — two, three or four may be
attached as shown.
The kind of wood finish for the
stand wiU depend upon the finish on
the wooden shade, if shade is pur-
chased. Brown Flemish is obtained by
first staining the wood with Flemish
water stein diluted by the addition of
two parts water to one part stain.
When this is dry, sandpaper the
'Vhiakers" vhich were raised by the
water and fill with a medium dark
filler. Directions will be found on the
filler cans. When the filler has hard-
ened, apply two coata of wax.
The metal shade as shown in the
sketch ia a "layout" for a copper or
brass shade of a size suitable for this
particular lamp. Such ahadea are fre-
quently made from one piece of sheet
metal and designs are pierced in them
as suggested in the "layout." This
piercing is done by driving the point
of a nail through the metal from the
tmder side before the parts are soldered
or riveted together. If the parts are
to be riveted, enough additional metal
must be left on the last panel to allow
for a tap. No lap is needed when
joints are soldered.
A better wny, and one which will
permit the nae of heavier metal, ie to
cut each side of the shade separately'
and fasten them together by riveting a
piece of metal over each joint. The
shape of this piece can be made so as
to accentuate the rivet heads and thus
give a pleasing effect.
For art-glass the metal twobIb are
Th« Complatad Lamp
cut out, the glass ia inserted from the
under side and held in place hy small
clips soldered to the frame of the shade.
Pleasing effects are obtained by us-
ing one kind of metal, as brass, and
reinforcing and riveting with another
metal, such as copper.
dbjGooglc
Ulumlaatlnr a Watch Dial at NlKht
This picture ehows a watch holder,
with a device to receive an ordinary
electric pocket
lamp and bat-
tery. The bat-
tery is set in a
bracket under
wliich a reflect-
or extendB down-
ward to throw
tlie light on the
dial of the
watch and to
protect the eyes
I'r'oin the direct
light. The en-
ti re stand and
bracket are made
from slieet metal. The base is formed
to make a tray to hold pina and col-
lar buttons. It ia not necessary ' to
seek in the darkness for a push button
or switch, as in ordinary devices, but a
light pressure with ihs palm of the
band will make the lamp gloT.
Hotne-Made Photographic Copylay
Stand
The difficulties of bad lighting on
small articles can be entirely avoided
by the use of a suitable support for the
camera, the object and the background.
plain background and no deep shadows.
When using the stand as illustrated this
is a very simple matter. .Figure 1 shows
the side, and Fig. 2 the front view of
this stand. The stand is very easily
constructed from pipe and pipe fit-
tings. The main pipe of the stand will
need to be of proper length to suit the
focus of your camera. This can be
determined by finding the length from
the lens to the object after the bellovrs
are extended to their full lengUi. The
arms holding the glass, as shown in the
sketch, should be set at a point about
the middle of the main tube. The cross
that holds the middle arms should be
I in. one way and ^ in. the other. This
will allow for adjustment of the glass
table. A small set screw provided in
the back of this cross vrill hold the table
in any position desired. The pipes and
other connections are all ^ in. and the
lengths of the pipes are mode suitable
for the size of the camera. When a
small object is to be photographed it is
placed upon the glass table and the
background fastened to the board. In
this manner email objects can be photo-
graphed without any deep shadow on
one side. The bottom cross and ells
should be corked so as to prevent any
slipping and damage to the floor.
8«eiir«a Oo»d Light on Bmall Objecta
For illuetrstioiis it is often an advan-
tage to Bbow an object vitb a perfectly
Home-Made Pocket Lamp
A simple and safe pocket lamp that
■will last for about 6 months without
extra expense can be made at home for
a few cents.
Have your druggist take a strong
vial of clear glass, or a pill ktttle with
screw or cork top and put injo it a piece
of phosphorus about the sise of a pea
and fill the bottle one-third full of pure
olive oil that has been heated for 15
minutes — ^but not boiled. Cork tightly
and the result will be a luminous light
in the upper portion of tke'bottle. If
the light oecomes dim, nscork and re-
cork again. The lamp Till retain its
brilliancy for about 6 months. This
makes a perfectly safe lamp to carry.
These lamps are used b/ watchmen of
d by Google
powder magazines. Care ehottld be
exercised in handling tbe pbospboros,
aa it is very poieooous.
flow to Make a TaoKent
OaJvanometer
Secure a piece of vrooA } in. thick
and cut out a ring with an outside
diameter of lOJ in. and an inside
diameter of 9 in. and glue to each side
two other rings i in. thick with the
same inside diameter as the first ring
and 11 in. outside diameter, thus form-
ing a ^in. channel in the circumfer-
ence of the ring. If a lathe is at hand,
this ring can be made from a solid
piece and the channel turned out. Cut
another circular piece 11 in. in diam-
eter for a base. Make a hole in the
center of this piece 1 in. wide and 6^
in. long, into which the ring first made
should fit 80 that its inner snrface is
just even with the upper gurface of the
baseboard. The ring is held upright
in the hole by a small strip screwed to
the base as shown. All screws and
brads that are used must be of brass.
The cutting of these circular pieces is
not BO difficult if a hand saw driven by
power is used. They can be cut by
means of a key-hole saw if a band saw
is not accessible.
Before mounting the ring on the
base, the groove should be wound with
8 turns of No. 16 double cotton-covered
magnet wire. The two ends may bo
tied together with a string to bold them
temporarily.
Fasten two strips of wood i in. thick,
f in. wide and 11 in. long across the
sides of the ring with their upper edges
passing exactly through the center of
the ring. An ordinary pocket compass,
about 1} in. in diameter, is fitted in
these strips ao that the center of the
needle or pointer will be exactly in the
center of the ring and its zero point
mark at the half-way point between
the two stripa Put the ring in place
on the base, as shown in the sketch, and
connect the two ends of the wire to two
binding-posts that are previously at-
tached to the base. Coat the entire
surface with brown shellac. Am
deviation from the dimensions will
cause errors in tbe results obtained by
its use.
fiemove all pieces of iron or steel
and eBpecially magnets in the near
vicinity of the instniment when in use.
Place the galvanometer on a level table
and turn it until the needle, pointing
north and south, and swinging freely,
lies exactly in the plane of the coil, as
shown in the cut. The needle then
will point to zero if the directions have
been followed closely. Connect one
Tangant Oalvinomtttr
cell of battery to the instrument and
allow the current to flow through tbe
coils. The needle of the compass will
be deflected to one side or the other,
and will finally came to rest at a cer-
tain angle — let us say 45 de^. The
dimensions of the instrument are Bocb
that when tbe deflection is 45 d%. the
current flowing through the coils upon
the ring is i ampere. The ampere
is the unit chosen to designate the
strength of the electric current. For
other angles the value of the current
may be found from the following
table:
ADglea. CarrsBt.
10 ies OSS amp.
20 ■■ 182 "
BO II 2S9 ■'
46 •■ ;■.;!;■.:!!!!!;:;![! isoo "
60 '• 600 "
89 ■• 715 "
60 *■ 866 "
70 •■ 1.370 "
As the magnetic force that acts
upon a magnet needle varies in differ^
ent places the values given for the
current will not be true in all parts of
jOOgIc
161
the coontr;. The table gives correct
Talnes for the immediate vicinity of
Chicago and that part of the United
States lying east of Chicago, and north
of the Ohio river. The results given
flboald be multiplied by 1.3 for places
south of the Ohio river and east of the
Mississippi.
Home-Made X-Ray Instrument
Two cylinders, AA, are mounted on
a base, B, and mirrors, CC, are £tted
at an angle of 45 deg. into these cyl-
inders. Corresponding mirrors, EE,
are put in the base parallel with those
in the cylinders. An opening extends
downward from D of each cylinder so
that light entering at one end pi the
DataIJa of X-Ray
cylinder is reflected down at right
angles by the first mirror to the sec-
ond, from the second to the third, from
the third to the fourth which reflects
the light to the eye. Thus the light
never passes through the cylinders and
the observer does not see fiirough, but
around any object inserted at X be-
tween the cylinders.
How to Make a Non-Polarizing
Battery
Bichromate batteries are very ex-
pensive to maintain and dry cells do
not furnish enough amperage for some
kinds of experimental work. A cell
of battery that will run 10 hours with
an output of over 1 ampere can be
made as follows: Secure a jar about
4 in. in diameter and 8 in. high and
pbce in the bottom of this jar the
lower half of a tin baking powder can,
to which a wire has been soldered for
connections. Place in the can a mix-
ture of 2 oz. black oxide of copper,
1 oz. black oxide of manganese and
some iron filings.
Purchase a small crowfoot zinc and
hang it about I in. above the half can.
Prepare a 10 per cent solution of caus-
tic soda and fill the jar within 1
in. of the top. Place on top the so-
lution a thin layer of kerosene or par-
affin. The cell will only cost about 50
cents to make and 25 cents for each
renewal. When renewing, always re-
move the oil with a siphon. — Contrib-
uted by Robert Canfield, University
Park, Colo.
A Home-Made Barometer
Take J oz. of pulverized campoor,
63 gr. of pulverized nitrate of potas-
sium, 31 gr. nitrate of ammonia and
dissolve in Z oz. alcohol. Put the solu-
tion in a long, slender bottle, closed at
the top with a piece of bladder con-
taining a pinhole to admit air, says
Metal Worker. When rain is coming
the solid particles will tend gradually
to mount, little crystals forming in the
liquid, which otherwise remains clear;
if high winds are approaching the
liquid will become as if fermenting,
while a film of solid particles forms on
the surface; during fair weather the
liquid will remain clear and the solid
particles will rest at the bottom.
A door lock may be lubricated by
using some lead scraped from the lead
in a pencil and put in the lock. This
may be done by putting the scrapings
on a piece of paper and blowing them
into tj)e lock through the keyhole.
Where bolts are subject to rust, the
threads should be painted with pure
white lead; then they will not rust
fast. , , ,
When painting yellow pine exposed
to the weather add a little pine tar
with the priming coat
dbyGOOgIC
Revolving a Wheel with Boat Sails
A novel windmill or revolving
wheel can be made by placing a light
wheel so it will turn freely on the end
from these ends and they are run
through a piece of cork. Attach to
the wires, on the under side of the
cork, a piece of zinc to one end and
a piece of copper to the other. The
; ,.^__
M
j
L^^^
i-
of a post, and placing four small sail-
ing boats at equal points on the rim of
the wheel. It makes no difference
which way the wind blows, the wheel
will revolve in one direction. In Fig.
I the direction of the wind is shown
by the arrows, and how the sails catch
the wind and cause the wheel to re-
volve. Figure 2 shows how the wheel
will appear when complete. This
device makes an attractive advertising
sign.
A Floating Electronu^net
A piece of iron placed in a coil of
wire carrying a current of electricity
becomes an electromagnet. If such a
coil and iron
core be made
small enough
they can be at-
tached to a cork
and the cork,
floating on a solu-
tion, will allow the
magnet to point
north and south. The sketch shows
how to make such an instrument. A
coil of insulated wire is wrapped
around a small iron core, leaving a few
inches of each end free for connec-
tions. The insulation is removed
TZ
^
r-
' ^.y^o>~
cork is then Soated on a solution of
acid, with the zinc and copper hanging
in the solution. If zinc and copper are
used, the solution is made from water
and blue vitriol. If zinc and carbon
are used, the solution is made from
sal ammoniac and water.
. The float will move about on the
solution until the magnet iron will
point north and south. If two of them
are floating on the same solution, they
will move about and finally arrange
themselves end to end with the coils
and magnet cores pointing north and
south. — Contributed by C. Lloyd Enos.
A Pish Bait
A very effective fish bait is made by
inclosing a live minnow in a short sec-
tion of glass tube, which is filled with
water and both ends closed with corks
This is used in place of the spoon.
Homemade Air Thermometer
The illustration shows the complete
thermometer. The water in the glass
tube is caused to rise and fall by the
expansion and contraction of the air
in the tin box.
A paper-fastener box, about ly^ in.
k)og Ic
Air TtMrmortMMr
deep and S in. in
diameter will
serve very well
for the box A.
Solder in the
side of the box a
1-in. piece of
i-in. brass tub-
ing, B, and then
solder on the
cover, C, so that
the only escape
for the air ia
through the
brass tabe. Se-
cure a piece of
^in. glass tubing
— not shorter
than 18 in. — and bend it as shown at
D in the sketch. Hold the part of
the tube to be bent in the brood side
of a gas jet, and in, a minute or two
the ti«>e will bend with its own weight.
Any angle can be given glass tubing
in this way. Connect the glass tube to
B with a ^ort piece of rubber hose, E.
If the hose is not a tight fit, bind with
a short pjece of fine copper wire. The
standard F, is made from a piece of
No. 10 wire about 10 in. long. To
this standard solder the supporting
wire, G — No. 14 wire will do. On one
side bend the wire aronnd the tube 6,
and on the other around the glass
tube, D.
The base, H, can be made of oak,
stained and varnished. The bottom of
the box. A, is covered with lampblack
eo as to readily absorb all heat that
strikes the snrface. The black should
not be put on until just before you
paint the supports, cover and rim of
the box with gold or silver paint. Hold
tite bottom of the box to be blackened
over a little burning cotton saturated
with turpentine.
The scale on the glass can be etched
with hydrofluoric acid, or made with a
little black paint. The water can be
put in with a medicine dropper. This
instrument will measure the amount of
heat given by a candle some 20 or 30 ft
away. — Contributed by J. Thos.
Bluuustine.
Home-Made Battery Voftmeter
Secure a piece of brass tube 3 in. long
that has about ^in. hole. Put ends. A,
li in. square and cut from heavy card-
board on this tube. Make a hole in
the center of each cardboard just large
enough to allow the brass tube to fit
tight. Put on two or three layers of
stout paper around the brass tube and
between the cardboard ends. Wind
evenly about % oz. of No. 26 cotton-
coveied magnet wire on the paper be-
tween the ends and leave about 3 in. of
wire on each end extending from the
coil. Use a board i in. thick, 3 in. wide
and S in. long for the base and fasten
the coil to it, as shown in Fig. 1. Bore
holes for binding-posts, B, one on each
side of the board, and connect the two
wires from the coil to them. At the
other end of the board and in the cen-
ter drive a wire nail and attach a small
spring, C, to it. The spring should be
about 1 in. long. Take a small piece
of soft iron, D, j; in. long and just large
enough to slip freely through the brass
Battery Voltmetar Cerwtruetlon
tube and solder a piece of copper wite
to it ; the other end of the copper wire
being hooked to the spring, C. The
copper wire must be just long enough
to allow the piece of iron, D, to hang
part way in the end of the coil and still
Digitized byGOOgIC
hold the spring in place. "A circular
piece of catdboard, E, ia slipped over
the spring to where the spring joins
the wire. This cardboard is to serve aa
the pointer. A piece of paper IJ in.
wide and 2^ in. long is glued to the
board bo that it will be directly under
the cardboard pointer and fit snugl; up
against the tnp of the coil.
The paper can oe calibrated by con-
necting one cell of battery to the bind-
ing-posts. The iron plunger, D, is
drawn into the tube and consequently
the pointer, E, is drawn nearer to the
coil. Make a mark directly under the
place where the pointer comes to rest.
At the place mark the number of volta
the cell reads when connected with a
voltmeter. Do the same with two or
three cells and mark down the result
on the Bcale. By dividing off the space
between these marks you may be able
to obtain a surprisingly correct reading
when connected with the battery cells
to be tested. — Contributed by Edward
M. Teasdale, Cuba, N. Y.
The hinges are attached aa ahovn in
Fig. 5 and the whole support is
fastened just under the end pieces of
the frame by hinges. Four pieces of
sheet metal are cut as shown in Fig. 4
and fastened to the body of the frame
with their lower ends hooking over pins
driven in each leg at the proper place.
The canvas is stretched as tight as po»-
sible over the two long side pieces and
fastened on the outside edge of each
Eiece with large headed tacks. The
tgs will fold up as shown by the dotted
line and the cot can be stor^ in a small
space. — Contributed by E. J. Smith,
Milwaukee, Wis.
flow to Make a PoldlnE Canvas Cot
All the material required to make
the cot as shown in Fig. 1 consists of
wood H in. square of which two pieces
are 6 ft. long; two pieces
3 ft. 3 in. long; two
pieces 2 J ft. long; four
pieces 1^ ft. long; four
hinges ; some sheet metal
and 2J yd. of 8-oz.
How to Make a Small Qelssler
Tube
At £rat this would seem to be a
difScult piece of work, yet a good and
beautiful Geissler tube can be made at
home in the following manner :
Procare a glass tube about 3^ ft long
having a hole through its center at>out
i or J in. in diameter, about 1 in. of
No. 30 platinum wire and enough mer-
cury to fill the tube and a small bowl.
About IJ lb. of mercury will be suf-
ficient. The first thing to do is to seal
i in. of platinum wire in one end of the
tube. This is done by holding the end
Make a rectangle of
the two long pieces and
the two 2-ft. 3-in. pieces
of wood as shown in
Fig. 2, nailing well the
comers together and re-
inforcing with a strip of
sheet metal as shown in
Fig. 3. The four pieces 1^ ft. long are
used for the legs, and two of them are
nailed to one of the pieces 3i ft. long,
making a support as shown in Fig. 6.
Make two of theae — one for each end.
DatailB or CanvM Cot Conttruction
of the tube with the right hand and
taking hold of the tube with the left
hand about 4 in. from the right hand.
Hold the tube in a flame of a bunsen
burner in such manner that the flame
d by Google
will Btnke the tube midway between
the hands, as shown in Fig. 1, and keep
turning the tube so as to get an even
heat When the glass becomes soft, re-
Conatruetlen of OalMier Tube
move the tube from the flame and
quickly draw it out into a fine thread.
Break this thread off about i in. from
the long part of the tube and the end
will appear as shown in Fig. 3. Take
} in. 01 the platinum wire and slip it
through the fine hole made by breaking
the glass thread so that one-half of the
wire will be inside of the long tube.
If the end of the tube is now placed
in the flame of the burner, the glass will
adhere to the platinum wire and the
wire will thus be sealed in the tube.
The finished end will appear as shown
in Fig. 3. This tube as described will
be 8 in. long, although nearly any size
could be made in the same way.
Measure 8 in, from the sealed end
and place the tube at that point in the
flame, holding in the left hand. At the
same time t^e the piece of glass that
was broken off at the end in the first
operation and hold it in the flame with
the right band. When both the tube
and piece of glass are soft, touch the
soft part of the tube with the end of
the glass and draw the tube out into a
point like that shown in Pig. 4. Break
off the piece of glass, thos leaving a
small aperture in the long tube. Seal
the remaining <^ in. of platinum in this
aperture in the same manner as before,
being careful not to heat the tube too
suddenly. The tube is now ready for
filling and the upper part will appear
as shown in Fig. 6.
The air is expelled from the tube by
filling with mercury. This may be done
by making a paper funnel and pouring
the mercury slowly into the tabe
through the funnel. When the tube is
filled to within i in. of the funnel re-
more the funnel and tap the side of the
tube gently in order to remove any
small air bubbles that may be clinging
to the sides of the tube. The air bub-
bles will rise and come to the top. The
tube now must be filled completely, ex-
pelling all the air. Place a finger over
the end of the tube to keep the mer-
cury in and inv^ the tube and set the
end in the bowl of mercury. The mer^
cury in the tube will sink until the level
will be at about 30 in., leaving 8 in.
of vacuum at the top. The next opera-
tion is to seal the tube at the half-way
point between the lower platinum wire
and the mercury level.
As the lower end of the tube must be
kept at all times in the bowl of mer-
cury until the tube is sealed, an assistant
will be necessary for this last opera-
tion. Have the assistant hold the tube
in the mercury at a slight angle, using
care to always keep the lower end in
the mercury, while you hold the burner
in the left hand and allow the flame to
strike the tube at the stated point The
part of the tube above this point will
gradually bend over of its own weight
as the glass softens. When it reaches
the angle of about 60 deg.. Fig. 6, take
hold of the tube with the right hand,
still keeping the flame on the tube, and
gradually draw the softened portion out
nntil it separates from the main tube.
The tube is now finished and when
the platinum wires are attached to the
terminals of a spark coil a beautiful
blue light will appear In the tube with
a dark space at the negative end or
cathode.— Contributed ■ by David A.
Keys, Toronto, Can.
Kuts that are rusted fast can often
be loosened by giving a hard turn in
the tightening direction.
« ■ »
Grea^ stoves may be cleaned with
a strong solution of lye or soda.
d by Google
How to Make a Take-Dowa Back-
ground Frame
Many amateur photographers who de-
sire to do portrait work at home have
left the subject alone for the want of
a suitable background. A frame such
■8 iB used bj the professional is entirely
out of the question in
most homes, says a cor-
respondent of Camera
Craft The frame as
shown in the sketch was
devised and its chief ad-
vantage lies in the fact
that when not in use it
can be compactly tied
together and stored
away in a closet.
Almost any wood may
be used in constructing
this frame, but yellow
pine is the best, as it is
easily obtained and at the same time
very well suited for such work. All
pieces are to be dressed on all sides.
Two upright pieces are cut from f-
in. material 2 in. wide and 6 ft. 9 in.
long and two blocks are fastened on
the ends of each that are to be used
for the bottom, as shown in Fig. 1.
These blocks are each 2 by 6 in. and
i in. thick. The base is made from a
piece } in. thick, 3 in. wide and 5 ft.
4 in. long. A crosspiece } in. thick,
3 in. wide and 12 in. long, cut in the
shape shown in Fig. 2, is screwed
on each end of the base with 3-in. wood
screws, as shown in Fig. 3. Four
blocks i in. thick, 1 in. wide and 3 in.
long are nailed to the sides of the base
piece parallel with and at a distance of
2 in. from the end of same. This forms
a slot. Fig, 4, to receive the pieces nailed
to the ends of the uprights. To secure
a rigid frame it is essential that this
joint be accurately put together.
Procure a piece of thick tin or brass
and make two pieces like the pattern
shown in Fig. fi, with each projection
3 in. long. The width of the cross-
piece is 1 in. and the single projection
} in. These are bent and nailed, one
on each end of a piece of wood that is
i in. thick, I in. wide and 5 ft long,
as in Fig. 6. These will form two
pockets that will fit over the tops of
the uprights. The frame is put to-
gether aa ahown in Fig. 7, Any back-
ground that will hang straight without
need of being stretched can be bung
on this frame.
Datallaof Backflround Frama
Home>Alade Kite Reel
This kite reel is constructed from
two old pulleys and a few pipe fittings.
The large pulley is about 14 in. in
diameter, on the face of which are
riveted flat strips of iron with extend-
ing arms. These arms are reinforced by
riveting smaller pieces from one to the
Old Pulton and Plp« Flttlnoa
d by Google
other, vhich connects all arms together
on both aidee of the vheel. Mounted
on the shaft with the pulleys is a guide
for the kite wire or string. The photo-
graph shows that this guide permits of
being moved entirely over the top of
the reel. The smaller pulley is attached
to the shaft and used as a brake. The
brake is used only when running out
the wire or string, first removing the
crank.
AttacfaloK Runoen to a Hcycle
for Winter Um
Instead of storing away your bicycle
Bicycle FltUd with Runner* for Snow
for the winter, attach runners and use
it OD the ice. The runners can be made
from i-in. by 1-in, iron and fastened
to the bicycle frame as shown in the
sketch. The tire is removed from the
rim of the rear wheel and large screws
turned into the rim, leaving the greater
]iart of the screw extending. Cut oS
the heads of the screws and file them
to a point. The rear runners should
be set so the rim of the wheel will be
abont i in. above the runner level. —
Contributed by C. B. Welsh, Manhat-
tan, Kan.
A Papu- That Makes Qreen Prints
A coating for ordinary paper that is
said to give green prints is made with
a two per cent solution of gelatine, says
Photography, and sensitized with the
following Bolution:
Potanlum Blebramate IB gt.
MagDcelam Bulptute 2B cr.
Water 1 ot.
This mixture is spread over the
Sapr in the usual way and the paper
ried in the dark. Printing is carried
rather far. The print is washed, then
surface dried or blotted oS on a pad
and laid film upwards on a sheet of
glass, and the following developer is
applied with a wad of cotton wool
wrung out:
^Toeatecbln S it.
Witer 1 M,
The picture assumes a rich green
color when developed, and is theo
washed for five or teo minutes and
dried quickly by heat
Copies Made from Wax Molds by
eiectro-Depositloa
Fine copies of wax impressions can
be made in the following manner: Pro-
cure an ordinary tumbler and fill it
with a strong solution of sulphate of
copper, which is made by dissolving
two cents' worth r
of blue vitriol in
i pt, of water.
After this i s
done make a
porous cell by
rolling a piece of
brown paper
around a stick and fastening the edge
with sealing wax; also, fix a bottom to
the cell in the same way. Make a
solution of one part of oil of vitriol
and 5 parts of water and pour this
mixture into the porous cell. Wind
the end of a copper wire around the
end of a piece of zinc and place the
zinc in the porous cell. Attach the
other end of the wire to the wax im-
pression.
The wax impression is made by
pouring melted beeswax on the article
you wish to reproduce and removing
after the wax gets cold. The wax mold
then should be coated with black lead
and polished. This is done with a
camel's hair brush. A fine copy can
be made on the wax impression after
the battery has been running about 12
hr. — Contributed by Edward M. Teas-
dale,
Digitized byGOOgIC
How to Make Skating Shoes
Remove the clamp part, as shown in
Fig. 1, from an ordinary clamp skate.
Drill holes in the top part of the skate
Skating Shon
for screws. Purchase a pair of high
shoes with heavy soles and fasten the
skates to the soles with screws, as
shown in Fig. 2. When completed the
skating shoes will have the appearance
shown on Fig. 3. These will make as
good skating shoes as can be pur-
chased, and very much cheaper. — Con-
tributed by Wallace C. Newton, Leo-
minster, Mass.
How to Make a Self-Setting
Rabbit Trap
Secure a good-sized box, say, 1 ft.
high, 1^ ft, wide, and 3 ft. long; and
to the bottom, about 10 in. from one
end, fasten a 3-in, square piece. A, Fig.
1, extending the width of the box.
Place a 10-in. board sloping from the
end of the box to the cleat A. The
swing door B, Fig. 1, is made as shown
Sclf-Sctttng Trap
in Fig. 2, which represents the back
side of the door. Sheet metal or tin
is cut to the proper size and tacked
around the edge of the hole. This pre-
vents the animal from gnawing its way
out, also provides a way to make the
hole of different sizes for squirrels or
other animals. The hole in the door
should be about 2 in. wide and 4 in.
high for rabbits. The door is made to
swing freely on two large nails driven
through the sides of the box. The hole
in the door being only large enough to
admit a small portion of the rabbit's
head, the rabbit will push its way
through to the bait, causing the door
to swing back and up, and it will close
by its own weight when the animal is
inside. A small door is provided in
the other end to remove the animals
caught.
The advantage of this trap is that
where one animal is caught others are
liable to follow, and several rabbits
will be trapped at a time. Then, too,
the rabbits are not harmed in any
way as they would be if caught in an
ordinary trap. — Contributed by H. F.
Church Alexandria, Va.
How to Make an Atomizer
Secure a good-sized test tube and
fit it with a cork. Take two glass
tubes, with about %-in. hole, and bend
them as shown ,.
in the sketch.
This is done by
heating them at
the proper point
over a gas flame
until they are
soft. Two holes
are bored through
the cork and the
bent tubes insert-
ed in them, as
shown in the
sketch, so that
one of the tubes
will extend near-
ly to the bottom
of the test tube and the other just pro-
jecting through the cork. The spray
tube may be made with a fine hole by
first securing a tube longer than neces-
sary and heating it at the proper point
l:v v^<v.^v_'Vl^_
and drawing the tobe out into a fine
thread. The thread is broken off at
the proper place to make a small bole.
Honie-Made Kits for the Camera
If you have a 5- by 7-in, camera and
wish to use some 4- by 6-in. plates,
make a few simple kite to hold the
smaller platee and fit the larger hold-
ers, says Camera Craft. Take two
pieces of pasteboard, A
and B, black surfaced if
possible, and exactly 5 by
7 in. in size. The piece
A will form the back of
the kit and should have
an opening cut in the
center 4 by 5 in. in size.
Paste a piece of strong
black paper, C, over the
under side of it to keep
the plate from falling through. Cut
an opening in the other piece, B, but
cat it i in. shorter. This openinf, be-
ing i in. shorter at each end, will re-
tain the plate in position and cut off
only that email amount of plate sur-
face when the plate is exposed in the
camera. Cut a piece of thin black
cloth, D, 1 in. wide and 6 in. long.
Lay it down on a piece of newspaper
and coat one side with gum or muci-
lage. Stand the two pieces of 5- by 7-
in. black cards on end together so that
they will be square and true and bind
the other ends with the strip of doth
BO as to form a hinge. The two cards
form a thickness about equal to a thick
glass plate, and go in the holder in
the same way. Lay one of these kits
down against the ground aide of the
focusing screen and draw a line around,
inside of the opening. This will be a
guide as to just what will be secured
upon the smaller plate when the kits
are used.
How to Make a Miniature St^:e
A good smooth box, say 8 in. wide, side of these openings. Fit an ade
10 in, hig^ and 12 in. long, will serve in the screw eyes and fasten a spool to
the purpose for the main part of this the middle of the axle. On one of the
small theater. Cut two rectangular two spools attach another smaller spool,
holes, Fig. 1, one in each end and ex- Fig. 2, to be used as a driving pulley,
actly opposite each other. Place a screw Cut out the front part of the box down
eye about ^ in. from the edge on each to a level vrith the top of the spools.
DMalla of tiM Mintatura Machanlcal SUga
dbyGooglc
Connect the spools with a belt made
from tape about f in. vide. On this
belt fasten figures cut from heavy pa-
per and made in the form of people,
automobiles, trolley cars, horses and
dogs. A painted scenery can be made
ID behind .the movable tape. The front
part of the box may be draped with cur-
tains, making the appearance of the
ordinary stage, as shown in Fig. 3. A
small motor will run the spools and
drive the tape on which the figures are
attached. — Contributed by William M.
CriUy, Jj"., Chicago,
A Floating Compass Needle
When a thoroughly dry and clean
sewing needle ia carefully placed on
the surface of water the needle will
float even if the density of steel ia 7 or
8 times that of water. A sewing needle
thus floating upon water may be used
as a compass, if it has previously been
magnetized. The needle will then point
north and south, and will maintain this
position if the containing vessel is
moved about; if the needle is displaced
by force it will return to its position
along the magnetic meridian as soon as
the restraint is removed.
Hotne-Made Dok Cart
The accompanying photograph shows
a boy with his "dogmobile." The photo-
graph was taken when they were on a
new pavement which had 2 in. of sand
left by the pavers and a grade of 6 per
cent. The machine is nothing more
than a boy's rubber-tired wagon on
which are mounted a boi for a seat
and a wheel steering device extending
above and below the board of the
wagon. The front wheels are guided
by ropes attached from each end of the
axle and a few turns around the lower
end of the steering rod. A pair of
shafts are attached to the rear, into
which the dog is harnessed.
Doa-Povnr Cart
How to Make a Dry Battery Cell
Dry battery cells are composed of
the same materials for the poles, but
instead of the liquid commonly used a
paste is formed by
mixing sal ammoniac
and other salts with
water and packed in
the cell so it cannot
spill.
A cell of this kind
can easily be made,
and to make it the
proper size a sheet of
zinc 81 in. long and
6 in. wide will be re-
quired. This zinc is
rolled into a cylinder
21 in. in diameter.
This will allow for a
lap of § in., which is
tightly soldered only on the outside of
the seam. Close one end of the cylin-
der by soldering a disk of zinc over
it, making a watertight receptacle. All
soldering should be done on the out-
side and none of the solder allowed
to run on the inside of the seam. All
seams on the inside should be painted
with asphaltum in order to cover any
particles of solder. Do not paint any
surface, only the joints. Secure three
carbon rode 1 in. in diameter and 6 in.
long which are copper plated. Carbons
used in arc lamps will do. File the
rods to remove the copper plate, leav-
ing about 1 in, of the plate at one end.
Tie the three rods in a close bundle
with the copper-plated ends together
d by Google
and make a contact with each rod by
solJering a vire to the plated ends, al-
lowing one end of the wire to project
aboat 2 in. for a connection. The
plated ends of the carboos ahonld be
covered with paraffin for about 1 in.
This IB done by immersing them in a
dish of smoking hot melted paraffin
until the pores are thoronghly satu-
rated.
, The salts for filling are i lb. zinc
ozijde, i lb. sal ammoniac, | lb. plaster
of paris, ^ lb. chloride of zinc mixed
into a paste by adding ^ pt. of water.
Form a J-in. layer of paste in the bot-
tom of the cylinder and place the ends
of the carbon rods on this with their
plated ends up. Hold the rods in the
center of the cylinder and put the
paste in around the rods with a stick.
Pack the paste in, closely filling the
cylinder t« within J in. of the top.
This space at the top is filled with a
mixture of ^ lb. of rosin and S oz.
beeswax melted together. This wax
seals the cell and prevents any evapora-
tion. Connection is made to the zinc
by soldering a wire to the outside of the
cylinder.
How to Paraffin ^^re
The following description of how to
make an apparatus with which to
paraffin wire as needed makes clear a
method of construction that is simple
and easy to put together in ft short
time.
Secure a pan to be used for this pur-
pose only; one that will hold about 1
qt. The details of the construction are
given in the diagram, in which P is the
pan; B is a base of l-in. pine; B is the
spool of wire supported near one end
of the base by nailing on standards H
and H; F is a spool, with narrow
fiangee, supported near the bottom of
the pan by the standards T and T.
These may be made of two short pieces
of a roller fitted into the holes bored
in the base; A is a block of 1-in. pine
with a piece of leather tacked on one
side. Four nails should be driven in
the base just outside of the edge of the
pan to keep it from sliding off the pan.
Bore a hole in the base between the
two spools and pass the wire through
this hole, under the spool in the
paraffin, then through a small hole in
the leather and a notch in the block A,
and a notch between the base and the
pan. Tie a string around the wire be-
tween the leather and the paraffin,
making the knots so they will not pall
through the hole in the leather. This
makes the wire smooth, and b; making
the string tighter or looser you can
regulate the thickness of the paraffin,
says Electrician and Mechanic. Place
the pan on the stove ; when the paraCBn
, is melted, pull out the wire as needed.
To keep the pv) from sliding place a
fiatiron or some other weight on It
Peat is used in Germany for bedding,
fodder, filter, fuel and packing pur-
HftiriB-Matf* Apparatin for Paraffinlna WIr*
Digitized by VjOOQIC
Sdeottfic EzpUnatioD of a Toy
In ■ ncRit line of Fopnlir UMbutcs an utlcls
uprenhm "tkldoo" Bnt becia U
Hi iba toUowlu nick ud eillcd II
IkhlH." wblcta nvatid m"'t< narri-
hettick U Uwnoglilj i
bom w>!
B tn. 1«
the end
wtBdmlll
How to Cut tha Notcha*
The foregoing article describing the
"Skidoo-Skidee Trick" appeared in a
recent issue of Popular MGchanica. I
have been told that a eimilar arrange-
ment is nsed by a tribe of Indiana in
tbe state of Washington, by the Hin-
dooe in India, and one friend tells me
that they were sold on the streets of oar
laive cities many years ago.
This toy interested me so much that
I have made an investigatioQ into the
caases of its action, and I think the re-
sults may be of interest.
To operate, one end of the notched
stick is held firmly in the left hand>
while vith the ri^t basd a nail or
match stick is rubbed along the notched
edge, at the same time pressing with ^e
thumb or finger of the moving hand
against the oblique face of the stick.
"Die direction of rotation depends upon
which face is pressed. A square stick
with notches on edge is best, but the
section may be circular or even irregular
in shape.
The esperiments were as follows :
1. A rectangular stick had notches
cut on one face. When the pressure
was applied upon a face normal to the
first, no rotation resulted. If the pres-
sure was upon an edge, rotation was ob*
tained.
2. Irregular spacing of the notches
did not interfere with the action. The
depth of the notches wsb also unimpor-
tant, although it should be suited to the
size of the nail for beat results.
3. The hole in the revolving piece
must be larger than the pin; if there is
a close fit no rotation is obtained.
i. The center of gravity of the re-
volving piece must lie within the hole.
If the hole is not well centered the trick
cannot be performed.
6. If the stick be clamped in a vise
no results are obtained; with this excep-
tion: if the stick has enough spring,
and the end clamped is far enough away
from the notched portion, the rotation
may be obtained.
The above experiments led me to the
conclusion that the operation of the de-
vice is dependent upon a circular mo-
tion of the pin, and this was confirmed
by the following experiments. The ac-
tion is somewhat similar to swinging
the toy known as a locust around with
a slight circular motion of the hand. It
is necessary to show here that a slight
d by Google
circDlar motion ia Bofficieat to produce
the resiilt and, secondly, that sach mo-
tion con be produced by the given move-
ments of the hands.
6. A piece of brass rod was clamped
in tlie chuck of a lathe, and s depres-
sion made in the end slightly eccentric,
by means of a center punch. If the end
«f the pin is inserted in this depression,
<^|(Cl^»^HH^
The Lath* Kxparimsnt
vhile the hand holding the other end
of the stick is kept as nearly as possible
in the axis of the lathe, rotBtion of the
lathe will produce rotation of the re-
volving piece. Speeds between 700 and
1,100 T. p. m. gave the best results.
7. A tiny mirror was attached to the
end of the pin, and the hand held in
the sunlight so that a spot of sunlight
was reflected upon the wall. The
notches were then rubbed in the usual
way. The spot of light upon the wall
moved in a way which disclosed two
components of motion, one circular and
one due to the irregular movements of
the hand holding the stick. Usually the
orbit was too irregular to show a con-
tinuous and closed circular path, but at
times the circular motion became very
pronounced. It was observed and the
direction of rotation correctly stated by
a man who was unaware of the source
of the motion.
The production of the circular mo-
tion can be explained in this way:
When the rubbing nail comes to a notch
the release of pressure sends the stick
upward; this upward motion against
the oblique pressure upon the (say)
right hand side gives also a lateral com-
ponent of motion towards the left. As
the nail strikes the opposite side of the
notch the stick is knocked down again,
this motion reHeves somewhat the
oblique pressure from the right hand
aide, and the reaction from the holding
(left) hand moves the stick to the ri^t
slightly, so that it is back in the old
position for the next upward motion.
Thus a circular or elliptic motion b re-
peated for each notch, and the direction
of this motion is the same whether die
nail be rubbed forward or back. For
oblique side pressure from the right
(notches assumed upward), the motion
of the stick and hence of the revolving
piece will be counterclockwise; if the
pressure is from the left, it will be
clockwise.
That the motion of the revolving
piece is due to a swinging action, and
not to friction of the pin in the hole,
is proved by experiments 3 and 4. —
Contributed by M. G. Lloyd, PhJ).,
Washington, D. G.
Hotne-Made LADtero
The accompanying picture shows a
lantern which can be made almost any<
where for immediate use. All that is
needed is an empty tomato or coSee can,
a piece of wire and a candle. Make a
hole a little smaller than the diametet
of a candle and about one-third of th(
way from the closed end of the can, as
shown. A wire is tied around the can,
forming a handle for carrying. This
kind of lantern can be carried against
almost any wind and the light will not
be blown out. — Contributed by G. A.
Sloan, Duluth, Minn.
Tin Can Lantam
Digitized byGOOgIC
A Study of Splashes
When a rough, or greasy, or dusty
sphere falls into a liquid, tiie liquid is
forced away from the sphere. If the
sphere is quite smooth tiie liquid rises
up around and enclosing it in a sheath,
says Knowledge and Scientific News,
Reproduced herewith are a series of
photographs showing successive stages
in the entry of a rough sphere into milk
and water, and the resultant "basket
splash." The diameter of this sphere
was about 3/5 in., and the height of the
fall about 6 in. Examination of the
photographs shows that the liquid, in-
stead of flowing over and wetting the
surface of the sphere, ia driven violently
away, bo far as can be seen from the
photographs, the upper portion ia, at
first, unwetted by the liquid. The
gradual thickening of the crater wall
and the corresponding reduction in the
number of its lobes as the subsidence
proceeds is beautifully shown. There-
after there rises from the depth of the
crater an exqaisite jet which in obedi-
ence to the law of segmentation at once
splits np in its upper portion into little
drops, while at the same time it gathers
volume from below and rises ultimately
as a tall, graceful column to a height
which may be even greater than that
from which the sphere fell.
■ Sphtr* in Milk and Water
now to Make a Stick Pio
A fine stick pin or button can be
made from a new one-cent piece. Care-
fully file out all the
metal around the
Indian head and
slightly round the
edges. Solder a pin
to the back of the
head when it ia to be
used for a stick pin.
If a collar button
base is soldered to
the back of the head
instead of the pin it
can he used for a
button. These can
be gold plated by a
jeweler and then you
will have a neat pin
or button, or a good emblem for the
Order of Kedmen.
d by Google
How to Make a Miniature ]^ectric Locomotive
A miniature electric railway is a thing
that attracts the attention of almost
any person. The cost of a toy electric
locomotive is beyond the reach of
many boys who could just as well
make such a toy without much expense
and be proud to say they "built it
themselves." The electric locomotive
described herewith uses for its power
a small battery motor costing about
$1. The first thing to do is to make
the wheels and axles. If one has no
oblong frame, each in its proper place.
The motor is now bolted, bottom side
up, to the top of the piece fastened to
the frame lengthwise. A trolley, Fig.
3, is made from a piece of clock spring,
bent as shown, and a small piece of tin
soldered to the top end for a brush
connection. A groove is made in the
tin to keep the trolley wire in place.
The trolley wire is fastened to sup-
ports made of wood and of the dimen-
sions given in Fig. 4. The trolley
> for Htking the Electric Locomoii
lathe, the wheels can be turned at
some machine shop. Four wheels are
made from a round bar of metal, as
shown in Fig. 1. Each wheel is 14 in-
thick and 1 in. in diameter, with a •f,,'
in, flange and a Vi-in. hole drilled in
the center. Each pair of wheels is
fitted on a i/i-in. axle, about 2% in.
long. One of the axles should be fitted
with a grooved belt wheel, as shown.
Make the frame from three pieces of
heavy brass, as shown in Fig. 3.
The first piece, or main part of the
frame, is made from brass, % in. wide
and 16 in. long, bent into an oblong
shape and the ends soldered or bolted
together. If the ends are to be
soldered, before doing so drill four y^-
in. holes 1 in. from the ends and in-
sert the ends of the axles. The other
two pieces are ^A in. wide and of the
dimensions shown in the sketch. These
pieces are riveted in the middle of the
should be well insulated from the
frame. The parts, put together com-
plete, are shown in Fig. 5. Run a belt
from the pulley on the motor to the
grooved wheel on the axle, as shown in
Fig. C, and the locomotive is ready for
running.
In making the connections the
travel of the locomotive may be made
more complicated by placing a rheo-
stat and controlling switches in the
line, so that the engine can be started
and stopped at will from a distance
and the speed regulated. Automatic
switches can be attached at the ends
of the line to break the circuit when
the locomotive passes a certain point.
One connection from the batteries is
made to the trolley wire and the other
to a rail. The connection for the
motor runs from one binding post to
the trolley and this connection must
be well insulated to avoid a short-cir-
ly v^<^-'v_'viv.
■"3"
coit The other binding-post is con- IlO-volt alternating cnrrent, is tamed
nected to the frame. on the lamp and coil and the magnet*
The coat of making the wheels and ized watch slowly drawn tfaroogh the
purchasiDg the track will not be over opening in the center of the coil. —
$1.60. Tne track can be made from Contributed by Arthur liebenberg,
strips of tin put in a saw cut made in Cincinnati, 0.
pieces of wood used for ties. This will * » »
save buying a track.— Contributed by j. ^ j,.. p_-t-* Kt-to
Maurice ETFnUer, San Antonio, Texas. ™* "" "**"• ' '^"«* ^*«*
Dema^etixlnc « Watcb
A test can be made to know if your
watch is magnetized by placing a small
compass on the side of the watch near-
est tiie escapement wheel. If the com-
pass pointer moves with the escapement
wheel the watch is magnetized. A
magnetized watch must be placed in a
f \
*' ■
1
1
J
1
Pwi-
k
Watch DamsB nattier
coil that has an alternating current of
electncity flowing through it to remove
the magnetism. A demagnetizer can
be made as shown in the illustration.
Two end meces for the coil are made as
shown in Pig. 1 from J-in. wood. These
ends are fastened together, Fig. 2, with
cardboard 3 in. long glued to the inside
edges of the holes cut in them. Wind
upon the spool thus formed about 2 lb.
of No. 16 cotton-covered copper wire.
As it will be necessary to place a l&-cp.
lamp in series with the coil, both the
coil and lamp can be mounted on a suit-
able base and connected as shown in
Pig. 3. The current, which must be
Secure a square file and break oS a
piece, Pig 1, the length of a paper clip,
Fig. 2. Draw the temper in the ends
of this piece of file, but do not heat the
center. This can be done by wrapping
a wet piece of cloth or asbestos around
the middle and holding it in the jaws of
a pair of tongs which will only leave
the end uncovered and projecting from
the tongs about J in. Hold thu pro-
jecting end in a Same of a plumber's
torch until it is a dull red. Allow this
to cool slowly while in the tongs. When
cold treat the other end in the same
way. This will draw the temper in
only the ends which are filed, as shown
in Fig. 1, and holes drilled in them.
Also drill a hole in each end of the
spring on the paper dip to match those
drilira in the piece of file. Fasten the
file in the clip with small bolts, as
shown in Fig. 3. When the file gets
filled with filmgs it can be removed and
cleaned. Place the runner of the skate
in the clip and hold fiat on the surface
of the runner. If the piece of file is
fitted to the same width as the skate
runner the sides of the paper clip will
hold the file level with the surface of
the runner without any trouble. Push
the clip back and forth until the skate
is shai^ned.
1
1 1
F„.a F
1
-Bolt
3
Sharpener for SkatM
dbjGooglc
(Hd-Tlme Nluglc
Trick with ■ ColB In ■ Wlna Out
The accompanying sketch showe a
nick of TemoTing a dime from the bot-
tom of an old-
fashioned wine
glass witboat
touching the
coin. The dime
is first placed in
the bottom of the
glass and then a
silver qu ar ter
dropped in on
top. The quarter
will not go all
the way down.
Blow hard into
the glass in tlie
position shown and the dime will iiy
out and strike the blower on the nose.
U«trlar«-KMit Trick
Tie a double knot in a silk hand-
kerchief, as shown in the accompany-
ing sketch and tighten the last tie a
little by slightly drawing the two upper
ends; then continue to tighten much
more, pulling vigorously at the first
comer of the
hand kerchief,
and as this end
belongs to the
same comer it
cannot be pulled
much without
loosening the
twisted line of
the knot to be-
come a straight
line. The other
comer forms a
slip knot on
and untied with the thumb while the
knot is in the folds of the handkerchief.
Qear-CuttlnK Attachment for Small
Lathes
When in. need of small gears for ez<
perimental or model machines the ama-
teur usually purchases them, never
thinldng tliat he couM make tiiem on
his own lathe. A small attachment
can be made to fasten in the tool poet
of a lathe and the attachment made
to take a mandrel on which to place
the blank for cutting a gear. The
frame is made from a ^in. square iron
bent as shown in the sketch with the
the end, which can be drawn out with-
out disturbing the form, or apparent
security of the knot, at the moment
when yon cover the knot with the un-
used part of the handkerchief.
When the trick is to be performed,
tie two or three very hard Knots that
are tightly drawn and show your audi-
ence that they are not easy to untie.
The slip knot as described then must
be made in apparently the same way
'Cutting Attachmsnt for Latiwa
projecting end filed to fit the tool
post of 0ie lathe. A pair of centers
are fitted, one of which should have a
screw thread and lock nut for adjust-
ment in putting in and removing the
mandrel.
All the old clock wheels that can
be found should be saved and used for
index wheels. All of these wheels
should be fitted to one end of the
mandrel. The blank wheel is put on
the outer end of the mandrel and a
clock wheel having the number of teeth
desired placed on the other end. When
the mandrel is put in between the cen-
ters a small pawl is fastened with a
screw to the frame with its upper end
engaging in a tooth of the clock wheel.
One clock wheel will index more than
one number of teeth on a blank wheel.
For instance: if the clock wheel has
18 teeth it can be made to index 6, 9 or
18 teeth to the blank by moving the
numt)er of teeth each time 3, 2 and 1
respectively.
In the sketch, A shows the end of
dbyGOOgIC
the cutter and B the side and the shape
of the catting tool. When the cutter
A, vhich is in a mandrel placed in the
centers of the lathe, has finished a cnt
foi a tooth, tiie pawl ia disengaged and
the mandrel turned to another tooth in
the clock wheel.
In order to get the draired height it
is sometimes necessary to block up the
lathe head and the final depth of the
tooth adjusted by the two screws in the
projecting end of the frame which rests
on the n^er in the tool post. Should
too much spring occur when cutting
■ron gears the frame can he made rigid
by blocking up the space betwe^ it
and the lathe bed.
The cutter mandrel is placed in the
centers of the lathe, or should the lathe
head be raised, a short mandrel with
the cutter near the end can be placed
in a chuck, and adjusted to run true.
The frame holding the mandrel, gear
blank and clock wheel is inserted in the
tool post of the lathe and adjusted for
depth of the cutter. The lathe is
started and the gear blank fed on the
cutter slowly until the tooth is cut.
The pawl ia released and the mandrel
turned to the proper number of teeth
and the operation repeated. In this
manner gears 3 in. in diameter can be
made on a 6-in. swing lathe. — Con-
tributed by Samuel C. Bunker, Brook-
lyn, N. Y.
Wire TermlnaU for Battery Con-
nections
Good connections on the end of wires
for batteries can be made from cotter
pins. Fig. 1, about 1^ in. long. Each
end of the wire ia put through the eye
of a cotter pin, twisted around itself
Cottar pin WIra Tarm'nala
and soldered. The connection and eye
are then covered with tape as shown in
Fig. 2. When connecting to totteriea,
spread the pin and push the parts an<
der the nut with one part on each aide
of the binding-post. When the nuts
are tightened the connection will be
better than with the bare wire. — Con-
tributed by Howard S. Bott.
Simple Arts and Crafts Leather
Work
Very interesting and useful pieces
of leather work can be done with noth-
ing more for equipment than a cup<
pointed nail set such as carpenters use^
and a nut pick.
The accompanying illustrations show
some of the things that can be madq;
Beginning at the left and reading to
the right they are: — Case for court-
plaster, coin puree, lady's card case, eye
glass cleaner or pen wiper (has chamois
skin within) . Second row : — Two book
marks, note book, blotter back, book
mark. Third row: — Pin ball (has sad-
dler's felt between the two leather
disks), tea cosey, gentleman's card case
or bill book. Fourth row : — Needle or
pin case, tea cosey, lady's belt bag,
watch fob ready for fastenings.
Procure a piece of Hussian calf
modeling leather. (1.) Make on pa-
per the design wanted. (3.) Moisten
the back side of the leather with sponge
or cloth with as much water as it will
take yet not show through on the face
side. (3.) Place the leather on some
hard Qon-absorbent material, such aa
brass or marble. (4.) Place the paper
design on the leather and, holding it in
place with the left hand, trace the out-
line of the object and the decorative
design with the nut pick so as to make
a V-shaped groove in the leather. (5.)
Take the paper off and working on the
leather directly make the grooves
deeper. (6.) With the cup-pointed
nail set stamp the background pro-
miscuously. This is done by making an
effort to hold the point of the set about
i in, above the surface, at the same
time striking light, rapid blows on the
top with a hammer or mallet.
d by Google
Thia Work It Dona with ■ Nail Bat and Nut PICK
With 8uch objects as coid purses and
card cases, a sewiDg machine will be
needed to fasten the parts together.
An ordinary machine will do. Fre-
qaently the parts are fastened by punch-
ing holes and lacing through these with
leather thongs or silk cord.
In making symmetrical designs such
as are here shown, draw center lines
across the required space, diyidiug it
into as many parts as desired. Make
free-hand one quarter of the design,
if four parts are to be alike, or one-half
of the design, if but two parts. Fold
over along these center lines. Put a
piece of double-surfaced carbon paper
between the parts and trace over the
design already drawn.
Digitized by VjOOQ IC
How to Make a Simple Still
A still to distill water can be made
from a test tube, some heavy rubber
hose, and an ordinary bottle. Secure
metal tube should be supplied to con-
nect the test tube and bottle.
Homemade Mariner's Compass
Magnetize an ordinarj- knitting
needle. A, and push it through a cork,
B, and place the cork exactly in the
middle of the needle. Thrust a pin,
C, through the cork at right angles to
the needle and stick two sharpened
matches in the sides of the cork so that
they will project downward as shown.
The whole arrangement is balanced on
a thimble with balls of wax stuck on
the heads of the matches. If the needle
is not horizontal, pull it through the
cork to one side or the other, or change
a stopper for the test tube, and bore a
hole through the center, into which fit
a small piece of tube. The bottle is also
fitted with a stopper containing a piece
of tube, and both bottle and test tube
connected with a rubber tube.
The test tube is partly filled with •
water and supported or held over an
alcohol lamp. The bottle should stand
in a basin of cold water. When the
water in the test tube begins to boil the
steam passes over to the bottle, where
it condenses. The basin should be
supplied with cold water as fast as it
begins to get warm. The rubber tube
will not stand the heat very long and
if the still is to be used several times, a
Hatn*tii(d Hctdla RevolTing on • Pin
the wax balls. The whole device is
placed in a glass berry dish and cov-
ered with a pane of glass.
CAdd aluminum bronze to a white or
light paint that* is to be used for letter-
ing on a dark ground.
Quartz Electrodes Used in Receiving Wireless Messc^ies
Wireless messages have been re-
ceived at Washington, D. C, from Key
West, Florida, a distance of 900 miles,
through a receiving instrument in
which two pieces of quartz of different
composition were used on the elec-
trodes. In making an instrument of
this kind the quartz can be purchased
from a dealer in minerals. One piece
must contain copper pyrites and the
other zincites. The electrodes are
made cupping to hold the minerals
and each should have a screw adjust-
ment to press the pieces of quartz in
contact with each other. Connect as
l:v v^JV^.'v.'Vl^^
shown in tbe illnstr&tion, using a high
lesiBtance receiver. — Contributed by
Edwin L. Powell, Washington, D. C.
How to Make a OUder
By Carl BatM
A gliding machine is a motorless
aeroplane, or djing-machine, propelled
by gravity and designed to carry a pass-
enger throagh the air from a high point
to a lower point some distance away.
Flying in a glider is simply coasting
down hill on ttte air, and is the most in-
teresting and exciting eport imagin-
able. Tbe style of glider deacribed in
this article is known aa the "two-sar-
face" or "double-decked" aeroplane, and
is composed of two arched cloth sur-
faces placed one above the other.
In building a glider the wood mate<
lial used should be straight-grained
spruce, free from knots. First prepare
from spruce planks the following sb-ips
of wood. Four long beams f in. tbiclc,
li in. wide and 30 ft long; 12 crosB-
Jiieces $ in. thick, } in. wide and 3 ft.
ong; 13 Qprighte | in. thick, 1} in.
wide and 4 ft long; 41 strips for the
bent ribs ■^ in, thick, ^ iiL wide and 4
ft long; 2 arm sticks 1 in. thick, 2 in.
wide and 3 ft long; the rudder sticks
f in. square and 8 ft long; several
strips i in. by } in. for bidding the
vertical and horizontal rudders. The
frames for the two main surfaces should
be constructed first, by bolting tbe
crosspieces to the long beams at the
places shown by the dimensions in Fig.
1. If 20-ft lumber cannot be pro-
cured, use 10-ft lengths and splice
them, as shown in Fig, 3. All bolts
used should be | in. in diameter and
fitted with washers on both ends. These
frames formed by the crosspieces should
be braced by diagonal wires as shown.
^I wiring is done with Na 16 piano
wire.
The 41 ribs may be nailed to the
main frames on the upper side by using
fine fiat-headed brads i in. long. These
ribs are spaced 1 ft. apart and extend
1 ft beyond tbe rear edges of the main
frames, as shown in Fig. 1. After nail-
ing one end of a rib to the front long
beam, the rib is arched by springing
down the loose end and nailing to the
rear beam. The ribs should have a
curve as ^own in Fig. 2, the amount
of curvature being the same in all the
ribs.
The frames of the main surfaces are
now ready to be covered with cloth.
Cambric or bleached muslin should be
used for the covering, which is tacked
to the front edge, stretched tightly over
the bent ribs and fastened securely with
tacks to tbe rear ends of the ribs. The
cloth should also be glued to the ribs
for safety. In the center of the lower
plane surface there should be an open-
ing 2 ft. wide and 4 ft long for tbe
body of the operator. Place the two
main surfaces 4 ft apart and connect
with the 12 uprights, placed in the cor-
ner of each crosspiece and beam. The
uprights are fastened by bolting to the
crosspieces, aa shown in Fig. 3, The
whole structure is made strong and
rigid by bracing with diagonal wires,
both laterally aiid longitudmally.
The vertical rudder is to keep the
machine headed into the wind and is
not movable. This rudder is made of
cloth stretched over a light woodm
frame, which is nailed to the rudd^
sticks connecting to the main frame.
The horizontal rudder is also made of
cloth stretched over a light wooden
frame, and arranged to intersect the
vertical rudder at its center. This rud-
der is held in position and strengthened
by diagonal wires and guy wires. The
horizontal rudder is also immovable,
and its function is to prevent the ma-
chine from diving, and also to keep it
steady in its flight The rudders are
fastened to the glider by the two rud-
der sticks, and these sticks are held
rigid by diagonal wires and also by guy
wires leading to the sides of the main
frames as shown in Fig. 1, The two
arm sticks should be spaced about 13
in. apart and bolted to the long beams
in the center of the opening in the
lower plane where the operator is to
take his position.
The glider should be examined to bm
iOOglc
DaUlU or the Oiidw
d by Google
that the frame ia not warpei or twisted.
The surfaces, must be true or the ma-
chine will be hard to balance when in
flight To make a glide, take the gUder
to the top of a hill, get in between the
ann sticks and lift the machine up un-
til the arm sticks are under the arms as
shown, run a few steps against the wind
and leap from the ground. You will
find that the machine has a surprising
amount of lift, and if the weight of the
body is in the right place you will go
shooting down the hillside in free flight.
The landing is made by pushing the
weight of tiie body backwards. This
will cause the glider to tip up in front,
dacken speed and settle. The operator
can then land safely and gently on bis
feet. Of course, the beginner should
learn by taking short jumps, gradually
increasing the distance as he gains skill
and experience in balancing and land-
ing.
The proper position of the body is
slightly ahead of the center of the
planes, but this must be found by ex-
perience. The machine should not be
used in winds blowing faster than 15
miles an hour. Glides are always made
against the wind, and the balancing is
done by moving the lega. The higher
the starting point the farther one may
fly. Great care should be exercised in
making landings, otherwise the opera-
tor might suffer a sprained ankle or
perhaps a broken linn). The illustra-
tion showa two lines of flight from a
hilltop, the glider trayels on the upper
line caused by the body of the operator
taking a position a little back of the
proper place, and on the lower line he
changes bis position from front to back
while flying, which causes the dip in
the line.
Making Up tha C«ntaup
second player is covered over with a
shawl or table cover which is pinned
around the waist of the first player. A
tail made of strips of cloth or paper
is pinned to the rear end of the cover.
The first player should bold a bow and
arrow and have a cloak thrown loosely
over his shoulder as shown in Fig. S.
Imitation hoofs of pasteboard may be
made and fastened over the shoes.
Boys RepreseotlDr the Centaur
This is a diversion in which two boys
personate a Centanr, a creatnre of
Greek mythology, half man and half
horse. One of the players stands erect
and the other behind him in a stooping
position with his hands upon the first
player's hips, as shown in Fig. 1. The
nome-JMade Ladle for Aleltloc
BabUtt
Seccre a large sized old bicycle bell
and rivet a heavy wire or strap iron
on one side for a handle. When heated
a little, hammer out the edge on one
side for a lip to pour from. This makes
a good ladle for melting small amountt
.oog Ic
of babbitt or lead. — Contribnted by
li. M. Olson, BeUingham, Wash.
] How to Make a Plash Lamp
Indoor photographs are made much
better vith the use of a flashlight thaa
by depending on light from windows.
The lighting can be made from any
direction to suit the operator. If light-
ing flash powder when not in a regular
flash lamp the flash cannot be depended
upon and in some instances is danger-
ous. To make a simple and inexpen-
sive flash lamp, first secure from your
druggist an empty salve box about 3 in.
in diameter. While at the drug store
get 3 ft. of small rubber tubing; this
will cost about 15 cents. Now visit the
^in shop and get a small piece of scrap
tin 3 or 4 in. square; a piece of brass
or steel wire, about the size of stove
pipe wire, 14 in. long. These with a
strip of light asbestos paper and some
small iron wire, about the size of door
screen wire, will complete the material
list.
Carefully punch a hole through the
salve box on one side near the bottom
with a 10-penny nail. Cut a strip of
(in 2 in. long and about f in. wide and
roll this around an 8-penny nail so as
to form a small tube which will Just fit
the hole made in the salve box. Next
roll up a strip of tin i in. wide into a
small cup about f in. in diameter at
one end and i in. at the other.
Place the tube in the .nail hole so
that one end comes almost to the center
of the box inside and the other end pro-
jects about i in. outside the box. Cut
out a little place for the tube to enter
the cup at the small end and then
solder the tube and cup to the bottom
of the box aa shown in the illustration.
The tube and cup should be well sold-
ered on the seams to make them air-
tight. Bend a ring on one end of the
larger piece of wire, making it 2^ in. in
diameter and form the remaining por-
tion of the wire into a spiral, soldering
the end in the bottom of the box near
the cup. Wrep the ring at tbe top of
the spiral piece of wire all the way
Mad* from a Tin Salve Box
around with the strip of asbestos paper,
wrapping them together over and over
until the entire ring is covered. Slip
the end of the rubber tube over the tin
tube on the side of the box and the
flash lamp is complete.
To make a flash with this lamp fill
the little cup in the center with flash
powder and moisten the asbestos ring
with alcohol. When all Is ready for
the picture tbe alcohol is lighted and a
quick blow of the breath tiirough the
rubber tube will force the flash powder
upward into the flame and cause the
flash.
When through with the lamp place
the cover over it, pushing the asbestos
ring down inside the box. Wind the
rubber tubing around the box and you
have a neat outfit that can be carried in
the pocket
Photosraphlng the New Mooa
To make a photograph of the moon
is quite difficult and no good picture
can be made without an expensive
apparatus. At home and with your
own hand camera you can make a good
picture of the new moon by the use of
a flash light on a tennis ball, the tennis
ball taking the part of the moon. The
ball is suspended in front of a black
cloth screen, the camera focused In
holding a burning match near the baU
and the exposure made by bniniiig a
ooglc
T«nnl( Ban Photographed
small quantity of flash powder at one
side and a little belov the ball. The
light from the flash only atriking one
side of the ball gives the effect of the
new moon. — Photo by M. M. Hunting,
Dayton, 0.
through the upper handle and then
completely over the blades of the scis-
Bors, as shown in Fig, 2. This is very
simple when you know how, but puz-
zling when the trick is first seen.
Colli uid Cwd oa the Flnt Placer
This is a simple trick that many can
do at the first attempt, while others will
fail time after time. It is a good trick
to spring upon a company casually if
you have practiced it beforehand. A
playing card
balanced on the
tip of the fore-
finger and a pen-
ny placed on top
immediately over
the finger end,
as shown in the sketch. With the right-
hand forefinger and thumb strike the
edge of the card sharply. If done
properly the card will fly away, leaving
the penny poised on the finger end.
Old-Time Magic— Part I
A piece of strong cord is doubled and
fastened to a pair of scissors with a slip
knot, as shown in Fig. 1. After pass-
ing the ends of the cord through the
thumb hole of the scissors they are tied
fast to a chair, door knob or any other
object that may be of sufficient size to
make the ends secure. The trick is to
release the scissors without cutting the
cord.
Take hold of the loop end of the cord
in the lower handle and drawing it first
HOW th« SclHora Ar* Removed
How to Make Seallne Wax Hat
PI OB
Select a stick of sealing wax of the
desired color for the foundation of the
hat pin. Hold the end of the stick over
a flame until the wax is soft enough to
drop ; then put it on the hat-pin head.
When euf&cient wax has adhered to the
pin, hold the lump over the flame, re-
volving the pin at the same time so the
wax will not drop and the head will
form a round ball. The head can be
made in any shape desired while warm.
When the desired shape has been ob-
tained, cool thoronghly in cold water
and dry carefully.
Stripes and designs may be put on
the fonndation by applying drops of
other brilliant colored wax, and by care-
ful manipulation the wax when warm
can be made to flow around the pin
head and form pretty stripes and de-
signs. If a certain color is to be more
prominent, the wax to make this color
must be applied last and the pin put
through the flame sgain. Cool in water
and dry, as before, and pass once more
through the flame to obtain the lustre.
ioog Ic
Old-Tlme Ma8i&— Port III
While this ib purely a eleight-of-hand
trick, it will take very little practice to
cause the coin to disappear inetantly.
Take a quarter of a dollar between the
thumb and finger, ae shown, and by a
rapid twist of
the fin^ra whirl
the com and at
tbe same time
close the hand,
and the coin will
disappear up
your coat sleeve.
On opening the
hand the coin
will not be seen.. Take (hree quarters
and hold one in the palm of the left
hand, place the other two, one between
the thumb and finger of each hand,
then give the coin in the right hand a
whirl, as described, closing both hands
qnickly. The coin in tbe right hand
will disappear up yonr sleeve, and the
left hand on being unclosed will con-
tain two quarters, while the one in the
right eball have disappeared.
SUcUdc ■ Colli AsBlBrt tk* WaO
Cut a small notch in a coin — ten-
cent piece or quarter will do — bo a
amall point will project When tliis is
pressed firmly against a wood casing or
partition the coin will atick tightly.
lire with their arms locked about each
other and tbe two outside peraons
swinging in midair with their bodies
almost horizontal.
A Chinese Outdoor Qame
The accompanying illustration shows
the "grand whirl," or the Chinese stu-
denta' favorite game. This game is
)layed by five persons, four of them
uming around the fifth or central fig-
ChliMM Doing the OrAnd Whiri
Hmne-Made Photograph of a Ught-
nlog Flash
How man; times has each amateur
fihotographer tried to photograph the
ightnin^s flash F Some good pictures
have been obtained by a ceaseless eflfort
OD the part of the operator. Here v> i
method by which
you can make a
picture of a
streak of light-
ning on a clear
night in your
own house. Paste
twostrips of
black paper on a
piece of glass
that is 10 in.
square bo as to
leave a clear
space through
the center Z in.
or more in
width. Smoke
this uncovered
space over a can-
dle's fiame until
the Boot is tliick
enough to pre-
vent light pass-
ing t h r a g h .
Take a sharp
lead pencil and
outline a fiash of lightning upon the
smoked surface, using a fine needle tc
make the smaller lines, and then set the
glass up against the back of two boxes
which are set to have a space between
them of 4 or 5 in.
A lighted candle is held behind the
glass 80 the light will shine through for
focusing the camera. After darkening
the room set your camera ready for the
exposure and burn a small quantity of
flash light powder in the same place in
which ttie candle was held. This will
make an impression upon tbe plate of
the flash drawn on the amoked glass.
jOOgIc
How to Make a Static Machine
Static electricity is produced by re- divisions can be marked on the oppo-
volving glass plates upon which a num- site side of the plate and a ciicie drav/n
ber of sectors are cemented ; these sec- as a guide to place the sectors at proper
tors, passing through neutralizing intervals,
brushes, distribute electric charges The sectors should lie flat on the
DaUili of > Uomeoiadc Suae Hachiiis
to collecting combs attached to dis-
charging rods. The glass selected for
the plates must be clear white glass,
free from wrinkles, and of a uniform
thickness. Two plates are necessary to
make this machine, and the glass
should be of sufficient size to cut a cir-
cular plate 16 in. in diameter, A hole
must be made exactly in the center of
each plate, and this should be done
before cutting the circle. One of the
best ways to make the hole is to drill
the glass with a very hard-tempered
drill, the cutting edge of which should
be kept moistened with 2 parts tur-
pentine and 1 part sweet oil while
drilling. The hole is to be made % in.
in diameter. The circle is then marked
on each plate and cut with a glass
cutter. The plates are trued up, after
they are mounted, by holding a piece
of emery wheel to the edges while they
are turning. Water should be applied
to the edges while doing the work.
The sectors are cut from tinfoil* 1*^
in, wide at one end, % in. at the other,
and 4 in, long. A thin coat of shellac
vaniish is applied to both sides of the
plates, and 16 sectors put on one side
of each plate, as shown in Fig. 1. The
glass with all parts smoothed out so
that they will not be torn from their
places as the plates revolve. The shel-
lac should be tacky when the pieces of
tinfoil are put in place.
The collectors are made, as shown in
Fig. 2, from about yi-in. copper wire
with two brass balls soldered to the
ends. The fork part is 6 in. long and
the shank 4 ir. Holes are drilled on
the inside of the forks, and pins in-
serted and soldered. These pins, or
teeth, should be long enough to be very
close to the sectors and yet not scratch
them when the plates are turning.
The frame of the machine is made
from any kind of finished wood with
dimensions shown in Fig. 3, the side
pieces being 24 in. long and the stand-
ards 3 in. wide. The two pieces, C C,
Fig. 3, are made from solid, close-
grained wood turned in the shape
shown, with the face that rests aofainst
the plate 4 in. in diameter, and the
outer end l*/^ in. in diameter, the
smaller end being turned with a groove
for a round belt. Before turning the
pieces a hole is bored throueh each
piece for the center, and this hole must
be of such a size as to take a brass tube
oog Ic
that has an iDternal diameter of } in.
Tlie tnmed pieces are glued to the glass
plates over uie center boles and on the
same side on which the sectors are fast-
ened. Several hours' time Till be re*
qaired for the glue to set. A fiber
washer is then put between the plates
and a brass tube axle placed through
the hole. The plates, turned wood
pieces, and brass a^e turn on a
stationary axle, D.
The drive wheels, EE, are made from
3-in. material 7 in. in diameter, and
are fastened on a round axle cut from
a broom handle. This wood axle is cen-
trally bored to admit a metal rod tight-
ly, and extends through the standardB
with a crank attached to one end.
KE, which are bent as shown. Timiel
or fine wire such as contained in flex-
ible electric wire are soldered to the
ends of these rods, and the brashes
thos made most be adjusted so the;
will just touch the plates. The caps
are fitted with screws for adjusting the
brushes. These rods and brushes are
called the neutralizers. A litUe experi-
menting will enable one to properly
locate the position of the neutraUzers
for beat results. — Contributed by C.
Lloyd Enos, Colorado City, Colo.
A Coocrete Swimmiax Pool
Several boys from a nei^borhood in
the suburba oi a large city concluded to
Two solid glass rods, GG, Fig. 4,
1 in. in diameter and 15 in. long, are
fitted in holes bored into the end pieces
of the frame, IVo pieces of 1-in. brass
tubing and the discharging rods, RR,
are soldered into two hollow brass balls
Z or 2J in. in diameter. The shanks
of the collectors are fitted in these brass
balls with the ends extending, to which
insulating handles are attached. Brass
balls are soldered to the upper ends of
the discharging rods, one having a S-in.
ball and the other one $ in. in diameter.
Caps made from brass are fitted
tightly on the ends of the stationary
shaft, D, and drilled through their
diameter to admit heavy copper rods.
iwtRimfng Pool
make for themselves a swimming tank
of concrete. The money was raised by
various means to purchase tbe cemen^
and the work was done b^ themselves.
The ^onnd was selected m a secluded
spot m a neighbor's back yard and a
bole dug to a depth of i ft., 12 ft.
wide and 22 ft long. The concrete
was made by mixing 1 part cement, 4
parts sand and 10 parts gravel to-
gether and the bulk moistmed vrith
watej. The bottom was made the same
as laying a sidewalk, and forms were
only Qsed for the inside of the ear-
rounding wall. The tank may be bid-
den with shrubbery or vines planted to
grow over a poullry wire fence.
d by Google
Old-ltme Made— Part IV
CatttaK m Thrcwl lB«lda «l ■ Olw* Bvttto
This ifi a trick which can only be
performed when the aim shincB, but it
Bererse the operation and take hold
of the inside line near right-hand
thumb with the little finger of the left
hand. You will then have the string
as it appears in the sketch. Quickly
let loose of the string with a little fin-
ger on one hand and a thumb on the
other and pull the string taut. The
key will drop from the string.
tlow to Bore a Square Hole
Th« Otua DIracti Iha Sun's Rays
IB a good one. Procure a clear glass
bottle and stick a pin in the lower
end of the cork. Attach a thread to
the pin and tie a smair weight to the
end of the thread so it will hang inside
the bottle when the cork is in place.
Inform your audience that you will
sever the thread and cause the weight
to drop without removing the cork.
All that is required to perform the
feat is to hold a magnifying glass so
as to direct the sun's rays on the thread.
The thread will quickly bum and the
weight fall.
K a Kty frua ■ Double Striae
Tie the ends of a 5-ft. string to-
gether, making a double line on which
a key ie placed and the string held as
shown by the dotted lines in the sketch.
Turn the palms of the hands toward
you and reach over with the little finger
of the right hand and take hold of the
inside line near the left-hand thumb.
You would not consider it possible
to bore a square hole in a piece of card-
board, yet such a thing can be done.
Take a cardboard or a thin piece of
wood, fold and place it between two
pieces of board with the fold up ; the
boards are then put in a vise as shown.
Start the bit with the screw point in
the fold, using a 1-in. bit, and bore a
hole ^ in. deep. When the cardboard
is taken from the vise it will appear
as shown at B and when nnfolded, as
at A.
"Tha Kay WItl Drop fr«m tlw ttrina"
d by Google
HOW TO MAKE COPPER TRAYS
Copper trays such as are shown in
the accompanying illnBtration are very
nseful as well as ornamental about the
bouse. They can be used to keep pins
and needles, peue and pencils, or cigar
ashes, etc They are easily made, re*
qnire no equipment in the way
of tools except what are usually '
found about the house, unless it
would be the metal shears, and
when the decorations are well
designed and the metal nicely
colored, they make attractive
little pieces to have about.
The first thing to do in prep-
aration for making them is to
prepare the design. Simple de-
signs work out better than fussy
ones and are more likely to be
within the ability of the ama-
teur. Having determined the
size of the tray, draw on paper
an oblong to represent it. In-
side this oblong draw another
one to represent the lines along
which the metal is to be bent
np to form the aides. Inside
this there should be drawn still
another oblong to represent the ma^;in
up to which the background is to be
worked. The traya shown are 53 by 6f
in., the small ash tray 4 by 4 in., the
long pen and pencil tray 4^ by 9^ in.
The second oblong was J in. inside the
first on all, and the third one i in. in-
side the second on all.
If the decoration is to have two parts
alike — symmetrical — divide the space
with a line down the middle. Draw
one-half the design free hand, then fold
along this line and trace the second
half from tiiis one. If the lines have
been drawn with soft pencil, rubbing
the back of the paper with a knife
handle will force enough of the lead
to the second side so that the outline
can be determined. Four-part sym-
metry vrill require two lines and two
foldings, etc.
For the metal working there will be
needed a pair of tin shears, two spikes,
file, fiat and round-nosed pliers, sciew-
driver and sheet copper of No. 23
gauge. Proceed as follows: 1. Cut
off a piece of copper so that it shall
have i in, extra metal on each of thb
four sides. 2. With a piece of carbon
paper trace upon the copper lines that
Artrclaa Mmda fi
shall represent the mai^n of the tray
proper and the liaes ^ng which the
upturned sides of the tray are to be
bent ; also trace the decorative design.
3. With a nail make a series of holes
in the extra margin, about f in. apart
and large enough to take in a |-in.
slim screw. 4. Fasten the metal to a
thick board by inserting screws in these
holes. 6. With a 30-penny wire nail
that has the sharpness of its point filed
oflf, stamp the background promiscu-
ously. By holding the nail about J in.
above the work and striking it with the
hammer, at the same time striving to
keep it at J in. above the metal, very
rapid progress can be made. This
stamping lowers the background and at
the same time raises the design.
6. Chase or stamp along the border
of the design and background, asing a
nail filed to chisel edge. This is to
make a clean, sharp division between
background and design. 7. When th%
d by Google
Btamping ia completed, remove the
screws and the metal from the board
and cat off the extra margin with the
uietal shears. File the edges iistil the;
are smooth to the touch. 8. With the
flat pliers "raise" one side of the tray,
thcD the other side. 9. liaise the ends,
adjusting the comers as ahown iu the
illnstratioD. Use the round-nosed
pliers for this purpose.
Copper is frequently treated chem-
ically (o give it color. Very pretty
effects may be obtained by covering the
tray with turpentine, then moving it
about over a flame such as a bunsea
burner until the turpentine bums off.
The copper will "take on" almost all
the colors of a rainbow, and the effect
will be most pleasing.
Photograph ot a Clown Face
At first glance the accompanying
photograph will appar ae if the per-
son photographed is wearing a false
face or has nis face painted like a
clown. On close observation you will
notice that the face is made on the
bald head of the person sitting behind
the table. The eyes, nose and mouth
are cut from black paper and pasted
on the bald spot. The subject's face
is horizontal and resting upon his
hands.
Hngrer Mathematlca
By CbarlM C. Bradlay
All machinists use mathematics. Ask
a machinist what would be the product
of 9 times 8 and his ready reply would
be 72, but change the figures a little
and say 49 times 48 and the chances
are that instead of replying at once he
will have to figure it out with a pencil.
By using the following method it is
juBt as easy to tell at a glance what
99 times 99 are as 9 times 9. You will
be able to multiply far beyond your
most sanguine expectations.
In the first numbering, be^n by
holding your hands with the palms
toward the body and make imaginary
numbers on the thumbs and fingers as
follows: Thumbs, 6; first fingers, 7;
second fingers, 8 ; third fingers, 9, and
fourth fingers, 10. Suppose you desire
to multiply 8 by 9, put the eighth finger
ou one hand against the ninth finger of
the other hand as shown.
A Bald H«ad Photograplwd
The two joined fingers and all the
fingers above them (calling the thumbs
fingers) are called the upper fingers and
each has a value of ten, which tens arc
added. Ail the fingers below the joined
fingers are termed the lower fingers,
and each of the lower fingers repr&-
aents a unit value of one. The sum of
the units on one hand should be multi-
plied by the sum of the units on the
other hand. The total tens added to
this last named aum will give the prod-
uct desired. Thus : Referring to above
picture or to your hands we find three
tens on the left hand and four tens on
the right, which would be 70.- We also
lOOglc
find two units on the left haad and one
on the right. Two times one are two,
and 70 plus 2 equ^a 72, or the product
of 8 timea 9.
Suppoaing 6 times 6 were the figures.
Pnt your thumbs together; there are
no fingers above, so the two thumbs rep-
resent two tens or 30; below the
thumbs are four units on each hand,
which would be 16, and 20 plus 16
equals 36, or the product of 6 times 6.
and multiply the number of upper fin-
gers used on the one band by uie nnin-
ber of upper fingers used on the other
hand, viz., Z times 2 equals 4. Adding
4 to 40 gives us 44. We now add 100
(because anytbiug over 10 time^ 10
would make over 100) and we have
144, the product of 12 times 18.
The addition of 100 is arbitrary, but
being simple it saves time and trouble.
Still, if we wish, we might regard the
Supposing 10 times 7 is desired. Pnt
the little finger of the left hand against
the first finger of the right band. At a
glance you see seven tens or 70. On
the right hand you have three units and
on the left nothing. Three times noth-
ing gives yon nothing and 70 plus noth-
ing 18 70.
In the second numbering, or numbers
above 10, renumber your fingers;
thumbs, 11; first fingers, 13, etc. Let
us multiply 12 by 12.
Put together the tips of the fingers
labeled 12. At a glance you see four
tens or 40. At this point we leave the
method explained in Case 1 and ignore
the units (lower fingers) altogether.
We go back to the upper fingers again
"10 TimM 7"
four upper fingers in the above example
as four twenties, or 80, and the six
lower fingers as six tens, or 60; then
returning to the upper fingers and
multiplying the two on the right hand
by the two on the left we would have
4 ; hence 80 plus 60 plus 4 equals 144 ;
therefore the rule of adding the lump
sum is much the quicker and easier
method.
Above 10 times 10 the lump anm to
add is 100 ; above 15 times 15 it is 200 ;
above 20 timea 20, 400; 25 times 25,
600, etc., etc., as high as yoa want to
go.
In the third numbering to multiply
above 15 renumber your fingers, begin-
ning the thumbs with 16, first finger
17, and so on. Oppose the proper finger
tips as before, the upper fingers repre-
eeuting a value of 20. Proceed as in
tlie first numbering and add 200. Take
for example 18 times IS.
At a glance we see six twenties plus
2 units on left band times 2 units on
right hand plus 200 equals 324.
In the fourth numbering the fingers
are marked, thumbs, 21, first fingers
22, et«., the value of the upper fingers
being 20. Proceed as in the second
numbering, adding 400 instead of 100.
d by Google
fingers have; and, lastly, the tump sam
to add, and you will be able to multi-
ply faster and more accurately tbfui
you ever dreamed of before.
Above 25 times 25 the upper fingers
represent a value of 30 each and after
proceeding as in the third numbering
yon add GOO instead of SCO.
This system can be carried as high
ae you want to go, but yon must re-
member that for figures ending in 1,
2, 3, 4 and 6 proceed as in the second
numbering. For figures ending in 6,
?, 8, 9 and 10 the third numbering ap-
jjies.
Determine the value of the upper
fingers whether they represent tens,
twenties, thirties, forties, or what. For
example, any two figures between 45
and 55, the value of the upper fingers
would be 50, which is the half-way
point between the two fives. In 8%
times 84 the value of the upper fingers
wonld be 80 (the half-way point be-
tween the two fives, ?5 and 8S, being
80). And the lump sum to add.
Just three things to remember:
Which numbering is to follow, whether
the one described in second or third
numbering; the value which the upper
Optical lllusloai
If a person observes fixedly for some
time two balls hanging on the end of
cords which are in rapid revolution, not
rotation, about a vertical axis, the direc-
tion of revolution will seem to reverse.
In some experiments two incandescent
"pills" of platinum sponge, such as art
used for lighting gas-burners, were
hung in tiny aluminum bells from a
mica vane wheel which was turned con-
stantly and rapidly in oue direction by
hot air from a gas fiame to keep the
platinum in a glow. The inveraiin and
reversion did not take place, as one
might suppose, at the will of the ob-
server, but was compulsory and fol-
lowed regular rules. If the observer
watches the rotating objects from the
side, or from above or from below, the
inversion takes place against his will;
the condition being that the image on
the retina shall be eccentric. It takes
place also, however, with a change in
the convergence of the optical axes,
whether they are parallel to each other
or more convergent. Also when the
image on the retina is made less distinct
by tiie use of a convex or concave lens,
the revolution seems to reverse ; further,
in the case of a nearsighted person,
when he removes his spectacles, inver-
lllMleni Shown by Ravolving Platinum tpong* "Pllte" and Hat Pina
jOOgIC
aion resultB every time that the image
on the retina ia not sharp. Bat even a
change in the df^ree of mdistinctoess
cauaes inversion.
The cause of this optical illusion is
the same where the wings of windmills
are observed in the twilight as a ail-
houette. It is then not a question of
which is the front or the back of the
wheel, but whether one of the wings or
the other comes towards the observer.
The experiment is made more simple by
taking a hat pin with a conspicuous
head, holding it firmly in a horizontal
position, and putting a cork on the
pqint Looking at it in semi-darkness,
one seems to see sometimes the head of
the pin, sometimes the point towards
him, when he knows which direction is
right The inversion will be continued
88 soon as one observes fixedly a point
at the side. Here it ia a question of the
perception of depth or distance; and
this is the fame in the case of the rotat-
ing balls ; the direction of seeming revo-
lution depends on which one of them
one considers to be the front one and
which the rear one.
From the foregoing the following
conclusion may be reached: When, in
the case of a perception remitting two
appearances, one fixedly observes one of
these and then permits or causes change
in the sharpness of the image on the
retina, the other appearance asserts
itself.
Steam Engine Made from Oas
Pipe and Flt'lngs
Almost all the material used in the
construchon of the parts for the small
steam engine illustrated herewith was
made from gas pipe and fittings. The
cylinder consists of a 3-in. tee, the third
opening being threaded and filled with
a cast-iron plug turned to such a depth
that when the interior was bored out on
a lathe the bottom of the plug bored
to the same radius as the' other part
of the tee. The outside end of the
plug extended about J-in. and the sur-
face was made smooth for the valve
seat. A flat slide valve was used.
The ports were not easy to make, as
The Engina
■ About 20 Inchra HIgtl
they had to he drilled and chipped ont.
The steam chest is round, as it bad to
be made to fit the round tee connection.
The croflshead runs in guides made
from a piece of gas pipe with the sides
cut out and threads cut on both ends.
One end is screwed into a rim turned
on the cylinder head and the other is
fitted into an oblong plate. Both ends
of this plate were drilled and tapped
to receive IJ-in. pipe.
The main frame consists of one 1^
in. pipe 10 in. long and one made up
from two pieces of pipe and a cross v>
make the whole length 10 in. These
pipes were then screwed into pipe
flanges that served as a base. The open
part of the cross was babbitted to re-
ceive the main shaft. The end of the
shaft has a pillow block to take a part
of the strain from the main bearing.
The eccentric is constructed of washers,
^"hile this engine does not give much
power, it is easily built, inexpensive,
and any one with a little mechanical
ability can make one by closely follow-
ing out the construction as shown in
the illustrat^ion. — Contributed by W. H.
Kutscher, Springfield, 111.
izocbyGOOgIC
Ho\Q to Make a Copper Bowl
To make a copper bowl, such as is
shown in the illustration, secure a piece
of No. 21 gauge sheet copper of a size
sufficient to make a circular disk 6^^
in. in diameter.
Cut the copper to the circular form
nnd size just mentioned, and file the
edge so that it will be smooth and free
from sharp places. With a pencil com-
pass put on a series of concentric rings
about 14 •"■ apart. These are to aid
the eye in beating the bowl to form.
The tools are simple and can be made
easily. First make a round-nosed mal-
let of some hard wood, which should
have a diameter of about I14 iii- across
the head. If nothing better is at hand,
saw off a section of a broom handle,
round one end and insert a handle into
a hole bored in its middle. Next take
a block of wood, about 3 by 3 by 6 in,,
and make in one end a hollow, about
2 in. across and ^ in. deep. Fasten the
block solidly, as in a vise, and while
holding the copper on the hollowed end
of the block, beat with the mallet along
the concentric rings.
Begin at the center and work along
the rings — giving the copper a circular
movement as the beating proceeds —
out toward the rim. Continue the cir-
cular movement and work from the
rim back toward the center. This
operation is to be continued until the
bowl has the shape desired, when the
bottom is flattened by placing the bowl,
bottom side up, on a flat surface and
beating the raised part flat.
Beating copper tends to harden it
and, if continued too long without
proper treatment, will cause the metal
to break. To overcome this hardness,
heat the copper over a bed of coals or
a Bunsen burner to a good heat. This
process is called annealing, as it
softens the metal.
The appearance of a bowl is greatly
enhanced by the addition of a border.
In the illustration the border design
show.1 was laid out in pencil, a small
hole was drilled with a band drill in
each space and a small-bladed metal
saw inserted and the part sawed out.
To produce color effects on copper,
cover the copper with turpentine and
Shaping Iha Bowl and Sawing tlia Lica
hold over a Bunsen burner until all
parts are well heated.
Cleaning Furniture
After cleaning furniture, the greasy
appearance may be removed by adding
some good, sharp vinegar to the furni-
ture polish. Vinegar, which is noth-
ing else than diluted acetic acid, is one
of the best cleansers of dirty furniture.
Melting Lead in Tissue Paper
Take a buckshot, wrap it tightly in
one thickness of tissue paper, and, hold-
ing the ends of the paper in the fingers
of each hand, place the part that holds
the shot over the flame of a match just
far enough away from the flame not to
bum the paper. In a few seconds un-
■'S
iC
fold the paper and you will fiod that
the shot has melted without even
scorching the paper. — Contributed by
W. 0. Hay, Camden, S. C.
The Principles of the Stereograph
Each of our eyes sees a different
picture of any object; the one sees a
trifle more to the right-hand side, the
other to the left, especially when the
object is near to the observer. The
stereoscope is the instrument which
effects this result by bringing the two
pictures together in the senses. The
stereograph produces this result in
another way than by prisms as in the
stereoscope. In the first place there is
Uooktnii Through th* Colored a«iatln«
•nly one picture, not two mounted side
by side. The stereograph consists of
a piece of card, having therein two cir-
cular openings about 1^ in. diameter,
at a distance apart corresponding to
the distance between the centers of the
pupils. The openings are covered with
transparent gelatine, the one for the
left eye being blue, that for the right,
orange. The picture is viewed at a
distance of about 7 in. from the stereo-
graph. As a result of looking at it
through the stereograph, one sees a
colorless black and white picture which
stands out from the background. Try
looking at the front cover of Popular
Mechanics through these colored gela-
tine openings and the effect will be
produced.
If one looks at the picture first with
the right eye alone through the orange
glass, and then with the left eyt
throu^ the blue glass, one will under-
stand the principle on which the little
instrument works. Looking through
the blue glass with the left eye, one
sees only those portions which are red
on the picture. But they seem black.
The reason is that the red rays are ab-
sorbed by the blue filter. Through the
orange gelatine all the white portions
of the picture seem orange, because of
the rays coming from them, and which
contain all the colors of the spectrum;
only the orange rays may pass through.
The red portions of the picture are not
seen, because, although they para
through the screen, they are not seen
against the red ground of the picture.
It is just as though they were not
there. The left eye therefore sees a
black picture on a red background.
In the same way the right eye eees
through the orange screen only a black
picture on a red background ; this black
image consisting only of the blue por-
tions of the picture.
Any other part of complementary
colors than blue and orange, as for in-
stance red and green, would serve the
same purpose.
The principle on which the stereo-
graph works may be demonstrated by
a very simple experiment. On white
paper one makes a picture or matk
with a red pencil. Looking at this
through a green glass it appears black
on a green ground; looking at it
through a red glass of exactly uie same
color as the picture, it, however, disap-
pears fully.
Through the glass one will see only
a regular surface of the color of the
glass itself, and without any picture.
Through a red glass a green picture
will appear black.
So with the stereograph; each eye
sees a black picture representing one of
the pictures given by the stereoscope;
the only difference being that in the
case of the stereograph the backgronnd
for each eye is colored ; while both eyes
together see a white background.
In ■ the pictures the red and the
green lines and dots must not coin*
d by Google
cide ; Beither can they be very far apart
in order to produce the desiied result.
Id order that the picture shall be
"plaBtic," which increases the sense of
depth aad shows the effect of distance
in the picture, they must be a very
trifle apart The arrangement of the
two pictures can be so that one sees the
pictures either in front of or on the
back of the card on whicb tbej are
printed. In order to make them appear
before the card, the left eye sees
through a blue screen, but the red
picture which is seen by it is a black
one, and lies to the right on the
Eicture; and the right eye sees the left-
and picture. The further apart the
pictures are, the further from the card
will the composite image appear.
In the manufacture of a stereoscope
the difliculty is in the proper arrange-
ment of the prisms; with the stereo-
graph, in the proper choice of colors.
MM«ury Make-and-Break Conoe^
tions for Induction Cells
Induction coils operating on low
voltage have a make-and-break connec-
tion called the "buzzer" to increase the
secondary discharge. Two typea of
make-and-break connection are used,
the common "buzzer" operated by the
magnetism of the core in the coil and
the mercury break operated by a small
motor. The sketch herewith shows how
to make the motor-operated break.
Two blocks of wood are nailed together
in the shape of an L and a email motor
fastened to the top of the vertical piece.
The shaft of the motor is bent about
i in. in the shape of a crank, so that in
turning it will describe a circle ^ in.
in diameter. A small connecting bar is
cut from a piece of brass i in. tiiick, }
in. wide and 1 in. long and a hole
drilled in each end ; one hole to fit the
motor shaft and the other to slip on a
No. 12 gauge wire. Two L-ehaped
pieces of brass are fastened to the side
of the block and drilled with holes of
such a size that a No. 12 gauge wire
will slip ilirongh snugly. Place a No.
13 gauge wire in these holes and bend
the top end at right angles.
Put the connecting brass bar on ihe
motor shaft with washers fitted tight
on each side and slip the other end
over the bent end of the wire. Have
the wire plenty long so it can be cut
to the proper length when the part» are
all in place. A small round bottle about
i in. in diameter is now fitted in a hole
that has been previously bored into the
middle of the bottom block and close
np to the vertical piece. This should
only be bored about half way through
the block. The wire is now cut so at
the length of the stroke the end will
come to about one-half the depth, or
the middle of the bottle.
Fill the bottle with mercury to a
point so that when the motor is run-
ning, the end of the wire will be in the
mercury for about one-half of the
stroke. Cover the mercury oyer with a
little alcohol. A No. 14 gauge iron
wire is bent and put into the side of the
bottle with the end extendiDg to the
bottom. The other end of this wire is
attached to one binding-post placed at
the end of the bottom block. The other
binding-post is connected to a small
brass brush attached to the side of the
d by Google
TCrtical piece, which ie placed with
some pressure on the moviag wire. The
motor can be run with a current from
a separate course or connected as shown
on the same batteries with the coil. The
proper height of the mercury can be
regulated for heat results. The motor
must run continuous if the coil is used
for writing code signals, wireless, etc. —
Contributed by Haraden Pratt, San
Francisco, Cal.
How to Make a Bannneter
Atmospheric pressure is measured by
the barometer. The weight of the air
in round numbers is 15 lb. to the
Bquare inch and will support a column
of water 1 in. square,
34 ft. high, or a coU
u m n of mercury
(density 13.6) 1 in.
square, 30 in. high.
The parts neces-
sary to make a sim-
ple barometer are, a
glass tube i in. in-
ternal diameter and
about 34 in. long, a
bottle 1 in. Inside di-
ameter and 2 in.
high. Seal one end
of the tube hy hold-
ing it in the name of
a gas burner, which
will soon Boften the
glass BO it can be
pinched together
with pliers. Put a
little paraffin in the
bottle and melt it by
holding the bottle
over a small flame. When cool the
paraEBn should cover the bottom about
1/16 in. thick. The tube is now to be
filled with mettury. This may be ac-
complished with a paper funnel, but
before attempting to put in the mer-
cury, place a large diah or tray be*
neath the tube to catch any mercury
that may accidentally be spilled. Only
redistilled mercury should be used, and
the tube should be perfectly clean be-
fore filling. When the tube is filled to
within 1 in. of the open end place the
forefinger over the hole and tilt the
tube up and down so all the air will
gather at the finger end. The fiUing
is continued untU the tube is full of
mercury. The glass bottle containing
the wax covered bottom is now placed
over the end of the tube and pressed
firmly to insure an airtight fit with
the tube. The bottle and tube are in-
verted and after a few ounces of mer-
cury are put in the bottle the tube may
be raised out of the wax, hut be care-
ful not to bring its edge above the sur-
face of the mercury.
The instrument is put aside while
the base is being made, or, if you choose,
have the base ready to receive the parts
just described when they are completed.
Gut a base from a piece of ^in. pine
3 in. wide and 40 in. long. In this
base cut a groove to fit the tube and the
space to be occupied by the bottle is
hollowed out with a chisel to a depth
of f in., so the bottle rests on one-half
of its diameter above the surface of the
board and one-half below. The instru-
ment is made secure to the base with
brass strips tacked on as shown in the
sketch. After the instrument is in
place put enough mercury in the bottle
so the depth of the mercury above the
bottom end of the tube wUl he about
Jin.
The scale is made on a piece of card-
board 2 in. wide and 4 in. long. The
4 in. are marked' off and divided into
sixteenths, and the inches numbered 27
up to 31. The scale is fastened to the
base with glue or tacks and in the posi-
tion behind the tube as shown in the
sketch. Before fastening the scale, the
instrument should be compared with a
standard barometer and tiie scale ad-
justed so both readings are the same.
But if a standard barometer is not
available, the inBtrument, if accurately
constructed, will calibrate itself.
In general, a drop in the mercury
indicates a storm and had weather,
while a rise indicates fair weather and
in winter a frost. Sudden changes in
the barometer are followed by like
changes in weather. The slow rise of
d by Google
the mercury predicts fair weather, and
a elow fall, the contrary. During the
froety days the drop of the mercury is
followed by a thaw and a riae indicates
snow.
and place them as shown in Fig. 1.
The puzzle is to make the first three
change places with the last three and
Home-Made Post or SwinelnK
Ll^ht
Bemove the bottom from a round
bottle of snfficient size to admit a wax
or tallow candle.
I This can be done
j with a glass cui>
t ter or a hot ring
I the size of the
I outside of the
i bottle, which is
i^^'^M slipped quickly
\0^^ over the end.
^J;-^ Procure a metal
. ' M ^^^ co^er, a cover
''% from a baking
E powder can will
; do, and fit it on
end where
s the bottom was
[ removed. The
sr is punched
I full of holes to
I admit the air
\ and a cross cut
the center
[ with the four
t wings thus made
by the cutting
turned up to form a place to insert the
candle. The metal cover is fastened to
the bottle with wires as shown in the
sketdL This light can be used on «
poet or hung from a metal support.
A Checker Puzzle
Cnt a block from a board about 3 in.
wide and 10 in. long. Sandpaper all
the surfaces and round the edges slight-
ly. Mark out seven 1-in. squares on
the surface to be used for the top and
color the squares alternately white and
black. Make aii men by sawing a cur-
tain roller into pieces about | in, thick.
Number the pieces 1, 3, 3, 5, 6 and t.
pMlilan or th* Man
move only one at a time. This may
be done aa follows:
Hove ] re No. 3 to tbe center.
Mnva S ip No. S over No. 8.
Hots t le No. ft to No. S'l nlBiw.
More A ip No. 8 over No. 6.
Hots { ip No. 2 OTcr No. 6.
Uav« f re No. 1 to No. S's pUce.
UOTf 'i ip Ko. e over No. \.
Uore t ip No. 6 over No. 2.
Move 1 ip No. T over No. 3.
UoTO 1( Fe No. 3 Into No. T'a pUce.
Mwve 1] up No. 2 over No. 7.
U0V« i: up No. 1 over No. 6.
Uove 11 re No. 6 Into No. 2'a place.
Move 1^ np No. T over No. 1.
Hove II re No. 1 Into No. B'l place.
After the 15 moves are made' the
men will have changed places. This
can be done on a checker hoard, aa
shown in Fig, 2, using checkers for
men, but be sure you so situate the
men that they will occupy a row con-
taining only 7 spaces. — Contributed bv
W. L. Woolson, Cape May Point, N. J,
Covering railroad signals with gold
leaf has taken the place of painting on
some roads. Gold leaf will stand the
wear of the weather for 15 or 20 years,
while paint requires recovering three or
four times a year.
d by Google
How to Make a Bell Tent
A bell tent is easily made and is nice
for lawns, as well as for a boy's camp*
ing outfit. The illustrations show a
plan of a tent 14 ft. in diameter. To
make such a tent, procure unbleached
tent duck, which is the very best ma-
terial for the purpose, says the Cleve-
land Plain Dealer. Make S2 sections,
shaped like Fig. 3, each 10 ft. 6 in. long
and 2 ft 2 in. wide at the bottom, taper-
ing in a straight line to a point at the
top. These dimensions allow for the
laid or lapped seams, which should be
of the wall firmly to the bell cover at
the point indicated by the dotted Une,
Fig. 2.
For the top of the tent have the
blacksmith make a hoop of %-in. round
galvanized iron, 6 in. diameter. Stitch
the canvas at the apex around the hoop
and along the sides. Make the apex
into a hood and line it with stiff canvas.
Have the tent pole 3 in. in diameter,
made in two sections, with a socket
joint and rounded at the top to fit into
the apex of the tent.
|r»,|
double-stitched on a machine. The
last seam sew only for a distance of 4
ft. from the top, leaving the rest for. an
opening. At the end of this seam stitch
on an extra gusset piece so that it will
not rip. Fold back the edges of the
opening and the bottom edge of the
bell-shaped cover and bind it with wide
webbing, 3 in. across and having eye-
lets at the seams for attaching the stay
ropes. Near the apex of the cover cut
three triangular holes 8 in. long and 4
in. wide at the bottom and hem the
edges. These are ventilators. Make
the tent wall of the same kind of cloth
8 ft. 2 in. high. Bind it at the upper
edge with webbing and at the bottom
with canvas. Also stitch on coarse
canvas 6 in, wide at the bottom, and
the space between the ground and the
wall when the tent is raised, fill with
canvqs edging. Stitch the upper edge
An IncipantiTa Hom«-llide Tent
In raising the tent, fasten down the
wall by means of loops of stout line
fastened to its lower edge and small
pegs driven through them into the
ground, Fig. 6. Run the stay ropes
from the eyelets in the circular cover
to stakes (Fig. 5) stuck in the ground.
Use blocks, as in Fig. 6, on the stay
ropes for holding the ends and adjust-
ing the length of the ropes.
Simple X-Ray Experiment
The outlines of the bones of the hand
may be seen by holding a piece of rice
paper before the eyes and placing the
spare hand about 12 in, back of the rice
paper and before a bright light. The
bony structure will be clearly dis-
tinguishable. — Contributed by G. J.
Tress, Emsworth, Pa,
izccbyGOOgIC
How to Make a Candle Shade
Lay out the pattern for the shade on
a thin piece of paper, 9 by i:^ in., mak-
ing the arcs of the circle with a pencil
compass. As shown in the sketch, the
pattern for this particular shade covers
a half circle with 8% in. added. Allow-
ance must be made for the lap and as
Y^ in. will do, a line is drawn parallel
Yi in. from the one drawn through the
center to the outside circle that ter-
minates the jlesign.
Nail a thin sheet of brass, about 9
in. wide by IS in. long, to a smooth
board of soft wood, then trace the de-
sign on the brass by laying a piece of
carbon paper between the pattern and
the brass. After transferring the de-
.sign to the brass, use a small awl to
punch the holes in the brass along the
outlines of the figures traced. Punch
holes in the brass in the spaces around
the outlined figures, excepting the ^
in. around the outside of the pattern.
When all the holes are punched, re-
move the brass sheet from the board
and cut it along the outer lines as
traced from the pattern, then bend the
brass carefully so as not to crease the
figures appearing in relief. When the
edges are brought together by bending,
fasten them with brass-headed nails or
brads.
If a wood-turning lathe is at hand,
the shade can be made better by turn-
ing a cone from soft wood that will fit
the sheet-brass shade after it is shaped
and the edges fastened together. The
pattern is traced as before, but before
punching the holes, cut out the brass
on the outside lines, bend into shape,
fasten the ends together and place on
the wood cone. The holes are now
punched on the outlines traced from
the pattern and the open spaces made
full of holes. The holes being punched
after the shade is shaped, the metal
will stay and hold the perfect shape of
a cone much better.
The glass-beaded fringe is attached
on the inside of the bottom part with
small brass rivets or brads placed about
% in. apart. The thin sheet brass may
be procured from the local hardware
dealer and sometimes can be purchased
from general merchandise stores,—
Contributed by Miss Kathryn E. Corr,
Chicago,
A Putty Grinder
Having a large number of windows
to putty each week, I found it quite
a task to prepare the putty. I facili-
tated the work by using an ordinary
meat cutter or sausage grinder. The
grinder will soften set putty and will
quickly prepare cold putty. It will
not, however, grind old putty or make
putty from whiting and o"I. — Contrib-
uted by H. G. Stevens, Dunham, Que.
-'a"
Home-Made Small Churn
Many people living in a small town
or in the suburbs of a city own one
Haldnc Butter
cow that supplies the family table with
milk and cream. Sometimes the cream
will accumulate, but not in sufficient
quantities to be made into butter in a
large chum. A fruit jar usually takes
the place of a churn and the work is
exceedingly hard, the jar being shaken
so the cream will beat against the ends
in the process of butter-making. The
accompanying sketch shows clearly
how one boy rigged up a device having
a driving wheel which is turned with
a crank, and a driven wheel attached
to an axle having a crank on the inner
end. This crank is connected to a
swinging cradle with a wire pitman of
such a size as to. slightly bend or spring
at each end of the stroke. The cradle
is made with a cleat fastened to each
end, between which is placed the fruit
jar, partially filled with cream. The'
jar is wedged in between the cleats and
the churning effected by turning the
crank. — Contributed by Geo. E. Badger,
Mayger, Oregon.
Home-Made Round Swii^
Gas pipe and fittings were used each fitted with a tee on the end. and
wherever possible in the making of the into this tee uprights of i/^-in. pipe in
swing as shown in the photograph, suitable lengths are screwed, and also
The diagram drawing
shows the construction. A
6-in. square cedar post is
set in the ground about 3
ft,, allowing 8 ft, to remain
above the ground and a
%-in. piece of shafting is
driven into the top part of
this post for an axle. A
cast-iron ring, or, better
still, a heavy wheel with
four spokes of such a size
as to be drilled and tapped
for l^in. pipe is used for
the hub, or center on which
the frame swings. If a
wheel is selected, the rim
must be removed and only
the spokes and hub used.
The hole in the hub must ti* itorrT-Oo-itound comptot,
be % in, or less, so the hub can be fitted short lengths with a tee and axle for
to the shafting that is driven in the the 6-in. wheel are fitted in the under
post. A large washer is placed on top side of the tee. The uprights at their
of the post and the hub or cast-iron ring upper ends are also fitted with tees and
set on the washer, each joined to the center pipe with
The drilled and tapped holes in the ^^-in, pipe flattened on the inner end
four spokes are each fitted with a 4^-ft. and fastened with bolts to a flange,
length of i^-in- pipe. These pipes are The bottom part of the cloth cover-
l:v v^<v.^v_'Vl^_
ing is held in place by a i^-in. pipe, bent
to the desired circle. Four braces made
from V^in. pipe connect each spoke and
seat to the flange on the center pipe.
An extra wheel 18 in. in diameter is
fitted in between two seats and used
as the propelling wheel. This wheel
has bicycle cranks and
pedals and carries a seat or
a hobby horse. The four
seats are fastened to the
four pipes with ^in. pipe
clamps.
Small miniature electric
lights are fastened to the
overhead braces and sup-
plied with electric current
carried through wires to
the swing by an ingenious
device attached to the un-
der side of the cast-iron
ring or hub of the wheel.
A ring of fiber on which
two brass rings are at-
tached is fastened to the
hub and connections are
made to the two rings through two
brushes fastened to the post with a
bracket The wires run under the sur-
face of the ground outside and con-
nected to the source of electricity. The
wires from the brass rings run through
the center pipe to the top and are con-
nected to the lamp sockets,
Old-Time Magi(^-Part V
Tbe Disappearing Coia
This is an uncommon trick, entirely
home-made and yet the results are as
startling as in many of the professional
tncks. A small baking-powder can is
employed to vanish the coin, which
should be marked by one of the audi-
ence for identification. Cut a slot in
the bottom on the side of the can, as
shown in Fig. 1. This slot should be
just large enough for the coin that is
used to pass through freely, and to
have its lower edge on a level with the
bottom of the can.
The nest or series of boxes in which
the coin is afterwards found should
consist of four small sized flat paste-
board boxes square or rectangular
shaped and furnished with hinged cov-
ers. The smallest need be no larger
than necessary to hold the coin and
each succeeding box should be just
large enough to hold the next smaller
one which in turn contains the others.
A strip of tin about 1 by 1% in. is
ofUie&wiiiE
bent in the shape as shown in Fig. Z to
serve as a guide for the coin through
the various boxes. This guide is in-
serted about % in. in the smallest box
between the cover and the box and
three rubber bands wrappecf around the
box as indicated. This box is then en-
closed in the next larger box, the guide
being allowed to project between the
box and the cover, and the necessary
tension is secured by three rubber
bands around the box as before. In
like manner the remaining boxes are
AppUaaanfcrUw DlnwMariuCain
adjusted so that finally the prepared
nest of boxes appears as in Fig. 3.
The coin can easily be passed into
the inner box through the tin guide,
l:v v^<v.^v_'Vli
■a"
then the guide can be withdrawn which
permits the respective boxes to close
and the rubber bands hold each one in
a closed position.
The performer comes forward with
the tin can in his right hand, the bot-
tom of the can tn his palm with the
slot at the right side. He removes the
cover with the left hand and passes his
wand around the inner part of the can
which is then turned upside down to
prove that it contains nothing. The
marked coin is dropped into the can by
some one in the audience. The cover
is replaced and the can shaken so the
coin will rattle within. The shaking of
the can is continued until the coin has
shpped through the slot into his palm.
The can is then placed on the table
with his left hand. Then apparently
he looks for something to cover the
can. This is found to be a handker-
chief which was previously prepared
on another table concealing the nest of
boxes. The coin in the right hand is
quickly slipped into the guide of the
nest of boxes, which was placed in an
upright position, and the guide with-
drawn, and dropped on the table. The
performer, while doing this, is explain-
ing that he is looking for a suitable
cover for the can, but as he cannot find
one he takes the handkerchief instead.
The handkerchief is spread over the
can and then he brings the nest of
boxes. He explains how he will trans-
fer the coin and passes his wand from
the can to the boxes. The can is then
shown to be empty and the boxes given
to one in the audience to be opened.
They will be greatly surprised to find
the marked coin within the innermost
box.
How to Keep Film Negatives
There are many devices for taking
care of film negatives to keep them
from curling and in a place easily ac-
cessible. Herewith is illustrated a
method by which anyone can make a
place for the negatives produced by his
or her special film camera. The de-
vice is made up similar to a post card
album with places cut through each
leaf to admit each comer of the
negatives. The leaves are made from
white paper and when the negatives are
in place the pictures made on them can
\i i JHlSssl
NacsUna oa Whits Pi
easily be seen through to the white
paper background. These leaves can
be made up in regular hook form, or
tied together similar to a loose-leaf
book, thus adding only such pages as
the negatives on hand will require. —
Contributed by H. D. Harkins, SL
Louis, Mo.
Home-Made Hatch Safe
Cut a piece of tin in the shape and
with the dimensions shown in Fig. 1.
Bend the saw-toothed edges at right
angles to the piece on the dotted lines.
Bend the part that is marked 5V^ in. in
a half circle. Make a circle W2 >"■ in
diameter on another piece of tin, cut
^*3
out the circle and cut the disk in two
as shown in Fig. 2. These half circle
pieces are soldered to the sides of the
teeth of the half circle made in the
long piece of tin. Remove one end
from the inside box containing matches
and slip the back of the match safe
through between the bottom of the in-
side box and the open end box that
ly V^JV_^V_'V1'
■a"
fonns the cover. The matches will fall
into the half circle tray at the lower
end of the box which will be kept full
of matches until they are all used from
the box.— Contributed by C. F. White,
Denver, Cola
An Electric Post Card Projector
A post card projector is an instru-
ment for projecting on a screen in a
darkened room picture post cards or
any other pictures of a similar size.
The lantern differs from the ordinary
magic lantern in two features; first, it
requires no expensive condensing lens,
and second, the objects to be projected
' have no need of being transparent.
Two electric globes are made to cast
the strongest possible light on the pic-
ture card set between them and in
front of which a lens is placed to pro-
ject the view on the screen, the whole
being enclosed in a light-tight box.
The box can be made of selected oak
or mahogany. The lens to be used as
a projector will determine the size of
the box to some extent. The measure-
ments given in these instructions are
for a lens of about 6 in, focal length.
The box should be constructed of well-
seasoned wood and all joints made with
care so they will be light-tight.
The portion shown carrying the lens
in Fig. 1 is made to slide in the main
body of the lantern for focusing. A
box should first be made 5^ in. wide,
6^ in. high and 11 in. long. A hole is
cut in the back of the box 4 by 6 in.
represented by the dotted line in Fig.
2. This will be % in. from the top and
bottom and 2^ in. from each end of the
outside of the box. Two strips of wood
Ys in. wide and 6% in. long are fastened
along the top and bottom of the back.
The door covering this hole in the back,
and, which is also used as a carrier for
the post cards, is made from a board
4^ in. wide and 6^4 'n. long. The
door is hineed to the lower strip and
held in position by a turn button on the
upper strip. The slides for the picture
cards are made from strips of tin bent
as shown, and tacked to the inside sur-
face of the door.
The runners to hold the part carry-
ing the lens are two pieces 2^ in. wide
by 5 in. long and should be placed ver-
tically, AA, as shown in Fig. 1, 3^ in.
from each end. An open space 4 in.
wide and 5 in. high in the center is for
the part carrying the lens to slide for
focusing. The part carrying the lens
is a shallow box 4 by 6 in. and 2 in.
deep in the center of which a hole is
cut to admit the lens. If a camera lens.
is used, the flange should be fastened
with screws to the front part of this
shallow box. The sides of this box
should be made quite smooth and a
good, but not tight, fit into the runners.
Plumbago can be rubbed on to prevent
sticking and to dull any rays of light
Two keyless receptacles for electric
globes are fastened to the under side of
the top in the position shown and con-
nected with wires from the outside.
Two or three holes about 1 in, in di-
ameter should be bored in the top be-
tween and in a line with the lights.
These will provide ventilation to keep
the pictures from being scorched or be-
coming buckled from the excessive
heat. The holes must be covered o%er
on the top with a piece of metal or
wood to prevent the light from show-
ing on the ceiling. This piece should
not be more than ^ in. high and must
izocbyGOOgIC
finger, then begin over again with
August on the first knuckle and con-
tinue until December is reached. Each
month as it falls upon a knuckle will
have 31 days and those down between
the knuckles 30 days with the exception
of February which has only 88 days.^
Contributed by Chas. C. Bradley, West
Toledo, Ohio.
The Fuming of Oak
Darkened oak always has a better
poMC.r<]Lu>t«mComi>kti appearance when fumed with ammonia.
be colored dead black inside to cause This process is rather a difiScult one,
no reflection. as it requires an airtight case, but the
The reflectors are made of sheet tin description herewith given may be en- ^
or nickel-plated metal bent to a curve tered into with as large a case as the
as shown, and extending the whole builder cares to construct,
height of the lantern. The length of Oak articles can be treated in a case
these reflectors can be determined by made from a tin biscuit box, or any
the angle of the lens when covering the other metal receptacle of good propor-
picture. This is clearly shown by the tions, provided it is airtight The oak
dotted lines in Fig. I. The reflectors to be fumed is arranged in the box so
must not interfere with the light be- the fumes will entirely surround the
tween the picture and the lens, but piece; the article may be propped up
they must be suflliciently large to pre- with small sticks, or suspended by a
vent any direct light reaching the lens string. The chief point is to see that
from the lamps. In operation place the no part of the wood is covered up and
post card upside down in the slides and
close the door. Sliding the shallow
box carrying the lens will focus the
picture on the screen,
A Handy Calendar
"Thirty days hath September, April,
June and November," etc., and many
that all surfaces are exposed to the
fumes. A saucer of ammonia is placed
in the bottom of the box, the lid or
cover closed, and all joints sealed up
by pasting heavy brown paper over
them. Any leakage will be detected
if the nose is placed near the tin and
farther application of the paper will
stop the holes. A hole may be cut in the
other rhymes and devices are used to cover and a piece of glass fitted in, tak-
aid the memory to decide how many
days are in each month of the year.
Herewith is illustrated a very simple
method to determine the
number of days in any
month. Place the first finger
of your right hand on the
first knuckle of your left
hand, calling that knuckle
January; then drop your
finger into the depression be-
tween the first and second
knuckles, calling this Feb™- ^ ^..^ „.^„ ^ „.^ ^^
ary; then the second knuckle
will be March, and so on, until you the oak is fumed to the desired shaoc.
reach July on the knuckle of the little Wood stained in this manner should
ing care to have all the edges closed.
The process may be watched through
the glass and the article removed when
July
</un«
* May— d«:.
I Apr. —Nov.
t A\nT. — Oct.
■* F«b. — S«pt.
* Jon. — Aug.
I:v v^JV.^v_'Vl^_
not be French polished or varnished,
but waxed.
The process of waxing is simple:
Cut some beeswax into fine shreds and
place them in a smalt pot or jar. Pour
in a little turpentine, and set aside for
half a day, giving it an occasional stir.
The wax must be thoroughly dissolved
and then more turpentine added until
the preparation has the consistency of
a thick cream. This can be applied to
the wood with a rag and afterward
brushed up with a stiff brush.
How to Make an Electrolytic Rectifier
Many devices which will change al-
ternating current to a direct current
■%J)
D.C.UNC
P.>2
have been put on the market, but prob-
ably there is not one of them which
suits the amateur's needs and pocket-
book better than the electrolytic rec-
tifier.
For the construction of such a rec-
tifier four 2-qt. fruit jars are required.
In each place two electrodes, one of
lead and one of aluminum. The im-
mersed surface of the aluminum should
be about 15 sq. in. and the lead 34 sq.
in. The immersed surface of the lead
being greater than that of the alumi-
num, the lead will have to be crimped
as shown in Fig. 1, In both Fig. 1 and
S, the lead is indicated by L and the
aluminum by A.
The solution with which each jar is
to be filled consists of the following:
w»tCT a qt.
Sodimn Carbonate 2 tableapoonfuls
AlniD 3 ubleapoonfals
Care should be taken to leave the
connections made as shown in Fig. 2.
The alternating current comes in on the
wires as shown, and the direct current
18 taken irom the pomt indicated.
The capacity of this rectifier is from
3 to 5 amperes, which is sufficient for
charging small storage batteries, run-
ning small motors and lighting small
lamps. — Contributed by J. H. Craw-
ford, Schenectady, N. Y.
The Rolling Marble
Take a marble
and place it on
a smooth surface,
the top of a table
will do. Ask
some one to
cross their first
and second fin-
gers and place
them on the
marble as shown
in the illustra-
tion. Then have
the person roll
the marble about
and at the same
time close the
eyes or look in
another d i r e c-
tion. The person will imagine that
there are two marbles instead of one.
A Gas Camion
If you have a small cannon with a
bore of 1 or 1^ in., bore out the fuse
hole large enough to tap and fit in a
small sized spark plug such as used on
a gasoline engine. Fill the cannon with
gas from a gas jet and then push a
0» Canoaii Loadad
cork in the bore close up to the spark
plug. Connect one of the wires from a
battery to a spark coil and then to the
spark plug. Attach the other wire to
the cannon near the spark plug. Turn
the switch to make a spark and a loud
report will follow. Contributed by
Cyril Tegner, Cleveland, O,
joglc
Old-Time Magic— Part VI
A Bandkatchlef Uended *fta Bdng Cot
■nd Tom
Two persons are requested to come
forward from the audience to hold the
four corners of a handkerchief. Then
beg several other handkerchiefs from
the audience and place them on the one
held by the two persons. When several
handkerchiefs have been accumulated,
have some one person draw out one
from the bunch and examine for any
marks that will determine that this
handkerchief is the one to be mended
after being mutilated. He, as well as
others, are to cut off pieces from this
handkerchief and to finally tear it- to
pieces.
The pieces are thea all collected and
some magic spirits thrown over the
torn and cut parts; tie them in a small
package with a ribbon and put them
under a glass, which you warm with
your hands. After a few seconds' time,
you remove the glass, as you have held
it all the time, and take the handker-
chief and unfold it; everyone will rec-
ognize the mark and be amazed not
to find a cut or tear in the texture.
This trick is very simple. You have
an understanding with some one in
the company, who has two handker-
chiefs exactly alike and has given one
of them to a person behind the curtain ;
he throws the other, at the time of re-
quest for handkerchiefs, on the hand-
kerchiefs held for use in the perform-
ance of the trick. You manage to keep
this handkerchief where it will be
picked out in preference to the others,
although pretending to thoroughly mix
them up. The person selected to pick
out a handkerchief naturally will take
the handiest one. Be sure that this is
the right one.
When the handkerchief has been torn
and folded, put it under the glass, on a
table, near a partition or curtain. The
table should be made with a hole cut
through the top and a small trap door
fitted snugly in the hole, so it will
appear to be a part of the table top.
This trap door is hinged on the under
side and opens into the drawer of the
table and can be operated by the per-
son behind the curtain who will remove
the torn handkerchief and replace it
with the good one and then close the
trap door by reaching through the
drawer of the table.
TbaUkglcKnM
This is a very amusing trick whidi
consists of tying one knot with two
ends of a handkerchief, and pulling Uie
Tjiag and Untjisi • Knot
ends only to untie them again. Take
the two diagonal comers of a handker-
chief, one in each hand and throw the
main part of the handkerchief over the
wrist of the left hand and tie the knot
as shown in the illustration. Pull the
ends quickly, allowing the loop over
the left hand to slip freely, and you will
have the handkerchief without any
knot
A Good Mouse Trap
When opening a tomato or other
small can, cut the cover cross ways
from side to side making four trian-
gular pieces in the top. Bend the four
ends outward and remove the contents,
wash clean and dry and then bend the
four ends inward, leaving a hole about
% in. in diameter in the center. Drop
in a piece of bread and lay the can
down upon its side and the trap is
ready for use. The mouse can get in
but he cannot get out. — Contributed
by E. J. Crocker, Victor, Cola
Rubbing the surface of an aluminum
plate with a steel brush will produce m
satin finish.
d by Google
How to Make a Sailing Canoe
A canvas canoe is easily made and
light to handle, but in making one, it
must be remembered that the cloth will
tear, if any snags are encountered.
Therefore such a craft cannot be used
in all waters, but by being careful at
shores, it can be used as safely as an
ordinary sailing canoe. Be sure to
select the best materials and when
complete cover the seams well with
paint.
The keelson. Fig. 1, is 14 ft. long, 8
in. wide in the center and tapered down
from a point 4 ft. from each end to 1
in. at the ends. Both ends are mor-
tised, one C in. for the stern piece, and
the other 12 in. for the bow. Be sure
to get the bow an J stern pieces directly
in the middle of the keelson and at
right angles with the top edge. The
stern and bow pieces are cut as shown
in Fig. 2 and braced with an iron band.
Completid S
The materials necessary for the con-
struction of a sailing canoe, as illus-
trated in the engraving, are as follows:
1 krrlwHi, 1 io. br 8 in. b<r IS ft., (circled pine.
14 rib handi, 1 in. iquarc fv Ifl f t . deir pine.
2 gunwdri, 1 in, bjr 3 in. by Ifl it.
1 piece for lormt and t>ow piecu. 1 in. br 12
in. by 10 It.
4 oul>ilca, H in. Yj 2 (n. bv Ifl ft.
1 piem, 3 in. wide and 12 li. long, for cockpit
I piece, 2 In. wide and 12 ft. long, for cenler deck
II Td. of IH-rd wide I2ai ducking.
5 rd. of l-vd. wide unbleached mmlii.
1 maM!" fl'7t"long.
Faint, acrewi and eleiu.
Vs in. thick and % in. wide, drilled and
fastened with screws.
Study the sketches showing the de-
tails well before startintr to cut out the
pieces. Then there will be no trouble
experienced later in putting the parts
together. See 'hat all the pieces fit
their places as the work proceeds and
apply the canvas with care.
Two forms ?rc made as shown in
Figs. 3 and 4; the smaller is placed 3
ft. from the bow and the large one, i
z:cbv^JOO^IC
ft 3 in, from the stem. The larger
mould is used temporarily while mak-
ing the boat, and is removed after the
ribs are in place. The gunwales are
now placed over the forms and in the
notches shown, and fastened with
screws, and, after cutting the ends to
fit the bow and stern pieces, they are
fastened with bolts put through the '
three pieces. The sharp edges on one
side of each rib-band are removed and
seven of them fastened with screws to
each side of the moulds, spacing them
on the large mould 4 in. apart. The
ribs are made of 28 good barrel hoops
son, 3% it from the bow, with bolts
through countersunk holes from the
under side.
There are three deck braces made
as shown in Figs. 6, 7 and 8. Braces,
Figs, 6 and 7, form the ends of the cock-
pit which is 20 in. wide. A 6-in, board
is fitted into the mortises 'shown in
these pieces; a center piece is fitted in
the other mortises. The other deck
braces slope down from the center piece
and are placed 6 in. apart. They are 1
in. square and are mortised into the
center piece and fastened to the gun-
wales with screws. The main deck
fe^
DeUila of ■ Bomt-Vad* SallinE Cum
which should be well soaked in water
for several hours before bending them
in shape. These are put in 6 in. apart
and are fastened to the rib-bands with
%-in. wood screws. The ribs should be
put in straight and true to keep them
from pulling the rib-bands out of shape.
After the ribs are in place and fastened
to the rib-bands, gunwales and keelson,
put on the outwale strips and fasten
them to the gunwales between every
rib with 1^-in. screws.
Before making the deck, a block for
the mast to rest in must be made and
fastened to the keelson. This block,
Fig. 5, is a cube having sides 6 in,
square and is kept from splitting by an
iron band tightly fitted around the out-
side. The block is fastened to the keel-
braces are fastened to the gunwales
with 4-in. comer braces and to the
center piece with 2-in. comer braces.
The mast hole on the deck is made as
follows : Secure a piece of twine 1 in.
thick, 6 in. wide and 3 ft, long. Cut
this in halves and mortise for the cen-
ter piece in the two halves and fasten
to the gtmwalcs. A block of pine, 4 in.
thick and 12 in. long, is cut to fit under
the top boards, Fig. 9, and fastened to
them with bolts. With an expansive
bit bore a hole 3 in. in diameter through
the block. Be sure to get the block and
hole directly over the block that is
fastened to the keelson. Put on a coat
of boiled linseed oil all over the frame
before proceeding farther.
Putting on the canvas may be a cMS-
lOog Ic
cttit piece of work to <Jo, yet if the fol-
lowing simple directions are followed
out no trouble will be encountered.
The ll-yd. length of canvas is cut in
the center, doubled, and a seam made
joining the two pieces together. Fill
the seam with thick paint and tack it
down with copper tacks along the cen-
ter of the keelson. When this is well
tacked commence stretching and pull-
ing the canvas in the middle of the gun-
wales so as to make it as even and
tight as possible and work toward each
end, tacking the canvas as it is
stretched to the outside of the gunwale.
Seam the canvas along the stern and
bow pieces as was done on the keelson.
The deck is not so hard to do, but be
careful to get the canvas tight and
even. A seam should be made along
the center piece. The trimming is wood,
^ in. thick and ^^ in. wide, A strip
of this is nailed along the center piece
over the canvas. The outwales are
nailed on over the canvas. A piece of
oak, 1 in. thick l^^ in. wide and 14 in.
long, is fastened with screws over the
canvas on the stem piece ; also, a piece
^ in. thick, 1 in, wide and 24 in. long
is well soaked in water, bent to the
right shape and fastened over the can-
vas on the bow.
The rudder is made as shown in Fig.
10 with a movable handle. A strip 1
in. thick by 2 in, wide, is bolted to the
keelson over the canvas for the outer
keel. The keel, Fig. 11. is 6 in, wide
at one end and 13 in. at the other, which
is fastened to the outer keel with bolts
having thumb nuts. The mast can be
made of a young spruce tree having a
diameter of 3 in. at the base with suffi-
cient height to make it 9 ft, long. The
canoe is driven by a lanteen sail and
two curtain poles, each 1 in, in diame-
ter and 10 ft long, are used for the
boom and gaff, which are held together
with two pieces of iron bent as shown
in Fig. 12. The sail is a triangle, 9%
by 9% by 8% ft, which is held to the
boom and gaff by cord lacings run
through eyelets inserted in the muslin.
The eyelets are of brass placed 4 in.
apart in the muslin. The mast has two
side and one front stay, each fitted with
a tumbuckle for tightening. A pulley
is placed at the top and bottom of the
mast for the lift rope. The sail is held
to the mast by an iron ring and the lift
rope at the top of the mast. The boom
rope is held in the hand and several
cleats should be placed in the cockpit
for convenience. A chock is placed at
the bow for tying up to piers. Several
coats of good paint complete the boat.
— Contributed by O. E, Tronnes, Wll-
mette. III.
A Home-Made Hand Vtie
A very useful little hand vise can
easily be made from a hinge and a.
bolt carrying a wing nut. Get a fast
Hand VIm lf*d* from ■ Hinf*
joint hinge about 2 In. or more long
and a bolt about % in. long that will
fit the holes in the hinge. Put the bolt
through the middle hole of the hinge
and replace the nut as shown in the
drawing. With this device any small
object may be firmly held by simply
placing it between the sides of the
hinge and tightening the nut
Proper Design for a Bird House
This bird house was designed and
built to make a home for the American
martin. The house will accommodate
20 families. All the holes are arranged
so they will not
be open to the
cold winds from
the north which
often kill the
birds which
come in the early
spring. Around
each opening is
an extra ring of
wood to make a
longer passage which assists the
martin inside in fighting off the Eng-
i-'^jOi
ogle
lish sparrow who tries to drive him
out. The holes are made oval to al-
low all the little ones to get their heads
out for fresh air. The long overhang-
ing eaves protect the Uttle birds from
the hot sunimer sun.
The rooms are made up with parti-
tions on the inside so each opening
will have a room. The inside of the
rooms should be stained black.
Boomerangs and How to Make Them
A boomerang is a weapon invented
and used by the native Australians,
who seemed to have the least intelli-
gence of any race of mankind. The
Detail* of Ttircs BoamcHDKi
boomerang is a cur\-ed stick of hard-
wood, Fig. 1, about 5/16 in. thick, W2
in. wide and 2 ft. long, flat on one side,
with the ends and the other side round-
ing. One end of the stick is grasped
in one hand with the convex edge for-
ward and the fiat side up and thrown
upward. After going some distftnce
and a.srending slowly to a great height
in the air with a quick rotary motion,
it suddenly returns in an elliptical orbit
to a spot near the starting point. If
thrown down on the ground the boom-
erang rebounds in a straight line, pur-
suing a ricochet motion until the object
is struck at which it was thrown.
Two other types of boomerangs are
illustrated herewith and they can be
made as described. The materials
necessary for the T-shaped boomerang
are: One piece of hard maple 6/16 in.
thick, 2y2 in. wide, and 3 ft. long; five
^in. flat-headed screws. Cut the
piece of hard maple into two pieces,
one 11^ in. and the other 18 in. long.
The corners are cut from these pieces
as shown in Fig. 2, taking care to cut
exactly the same amount from each
corner. Bevel both sides of the pieces,
making the edges very thin so they
will cut the air better. Find the exact
center of the long piece and make a
line 1^4 in. on each side of the center
and fasten the short length between
the lines with the screws as shown in
Fig. 3. The short piece should be
fastened perfectly square and at right
angles to the long one.
The materials necessary for the
cross-shaped boomerang are one piece
hard maple 5/16 in. thick, 2 in. wide
and 30 in. long and five V^in. flat-
headed screws. Cut the maple into
two 14-in. pieces and plane the edges
of these pieces so the ends will be 1%
in. wide, as shown in Fig. i. Bevel
these pieces the same as the ones for
the T-shaped boomerang. The two
pieces are fastened together as shown
in Fig. 5. All of the boomerangs when
completed should be given several
coats of linseed oil and thoroughly
dried. This will keep the wood from
absorbing water and becoming heavy.
The last two boomerangs are thrown
in a similar way to the first one, ex-
cept that one of the pieces is grasped
in the hand and the throw given with
a quick underhand motion. A little
practice is all that is necessary for one
to become skillful in throwing them. —
Contributed by O. E. Tronnes, Wil-
mette. III.
How to Hake Water V^ngs
Purchase a piece of unbleached mus-
lin, 1 yd. square. Take this and fold it
over once, forming a double piece 1^
ft. wide and 3 ft. long. Make a double
stitch all around the edge, leaving a
small opening at one comer. Insert
l:v v^JV^.'v.'Vl^^
a piece of tape at this corner to be used all over will prevent it from leaking,
for tying around the opening when the As these wings are very targe they will
bag is blown up. The bag is then prevent the swimmer from sinking. —
turned inside out, soaked with water Contributed by W. C, Bliss, St. Louis,
and blown up. An occasional wetting Mo.
How to Mate an Ammeter
The outside case of this instrument is
made of wood taken from old cigar
boxes with the exception of the back.
If carefully and neatly made, the fin-
ished instrument will be very satis-
factory. The measurements here given
need not be strictly followed out, but
can be governed by circumstances.
The case should first be made and var-
nished and while this is drying, the
mechanical parts can be put together.
turned into each three-cornered piece.
The front, which is a piece 6^4 in-
wide and 6% in. long, has a circular
opening cut near the top through
which the graduated scale may be
seen. This front is centered and fast-
ened the. same as the back, and the four
outside edges, as well as the edges
around the opening, are rounded. The
whole case can now be cleaned and
stained with a light mahogany stain.
^ '"' ^S
Detail* of an Amnwtet
The back is a board % in. thick, 6^
in. wide and 6% in. long. The outer
edges of this board are chamfered.
The other parts of the case are made
from the cigar box wood which should
be well sandpapered to remove the
labels. The sides are 3^ in. wide and
6 in. long; the top and bottom, 3^ in.
wide and 4^/^ in. long. Glue a three-
cornered piece. A, Fig. 1, at each end
on the surface that is to be the in-
side of the top and bottom pieces.
After the glue is set, fasten the sides to
the pieces with glue, and take care that
the pieces are all square. When the
glue is set, this square box is well
sandpapered, then centered, and fast-
ened to the back with small screws
and varnished. Cut another piece of
board, B, Figs. 2 and 3, to just fit in-
side the case and rest on the ends of
the three-cornered pieces. A, and glue
to this board two smaller pieces, C, 3
in, square, with the grain of the wood
in alternate directions to prevent warp-
ing. All of these pieces are made of
the cigar box wood. Another piece,
D, % in. thick and 3 in. square, is
placed on the other pieces and a U-
shaped opening 1% in. wide and 2^
in. high sawed out from all of the
pieces as shown. The piece D is at-
tached to the pieces C with four %-in.
pieces Z% in. long.
A magnet is made from a soft piece
of iron, E, about % in. thick, 1^ in.
■'S
iC
wide and 2% in. long. Solder across
each end of the iron a piece of brass
wire, F, and make a turn in each end
of tht wires, forming an eye for a
screw. These wires are about 2^ in.
long. Wind three layers of about No.
14 double cotton -covered copper wire
on the soft iron and leave about 5 or
G in. of each end unwound for connec-
tions.
The pointer is made as shown in
Fig. 5 from 1/16-in. brass wire filed to
make a point at both ends for a spindle.
About ^ in. from each end of this wire
are soldered two smaller brass wires
which in turn are soldered to a. strip
of light tin Yi in. wide and 2% in. long.
The lower edge of this tin should be
about % in. from the spindle. The
pointer is soldered to the spindle %
in. from one end. All of these parts
should be brass with the exception of
the strip of tin. Another strip of tin,
the same size as the first, is soldered to
two brass wires as shown in Fig. 4.
These wires should be about 1 in. long.
The spindle of the pointer swings
freely between two bars of brass, G,
1/16 in. thick, y^ in. wide and 3^ in.
long. A small hole is countersunk in
one of the bars to receive one end of
the spindle and a hole % in- in diameter
is dniled in the other and a thumb nut
taken from the binding-post of an old
battery soldered over the hole so the
screw will pass through when turned
into the nut. The end of the screw is
countersunk to receive the other end
of the spindle. A lock nut is necessary
to fasten the screw when proper ad-
justment is secured. A hole is drilled
in both ends of the bars for screws to
fasten them in place. The bar with
the adjusting screw is fastened on the
back so it can be readily adjusted
through the hole H, bored in the back.
The pointer is bent so it will pass
through the U-shaped cut-out and up
back of the board B. A brass pin is
driven in the board B to hold the
pointer from dropping down too far
to the left. Place the tin. Fig. 4, so it
will just clear the tin. Fig. 6, and fasten
in place. The magnet is next placed
with the ends of the coil to the back
and the top just clearing the tin strips.
Two binding screws are fitted to me
bottom of the back and connected to
the extending wires from the coil.
The instrument is now ready for cal-
ibrating. This is done by connecting
it in series with another standard am-
meter which has the scale marked in
known quantities. In this series is
also connected a variable resistance
and a battery or some other source of
current supply. The resistance is now
adjusted to show .5 ampere on the
standard ammeter and the position of
the pointer marked on the scale.
Change your resistance to all points
and make the numbers until the entire
scale is complete.
When the current flows through the
coil, the two tinned strips of metal are
magnetized, and being magnetized by
the same lines of force they are both
of the same polarity. Like poles repel
each other, and as the part Ftg. 4 is
not movable, the part carrying the
pointer moves away. The stronger the
current, the greater the magnetism of
the metal strips, and the farther apart
they will be forced, showing a greater
defection of the pointer. — Contributed
by George Heimroth, Richmond Hill,
How to Make an Equatorial
This star finder can easily be made
by anyone who can use a few tools as
the parts are all wood and the only
lathe work necessary is the turned
shoulder on the polar axis and this
could be dressed and sandpapered true
enough for the purpose. The base is
a board 5 in. wide and 9 in. long which
is fitted with an ordinary wood screw
in each comer for leveling. Two side
pieces cut with an angle equal to the
colatitude of the place are nailed to the
base and on top of them is fastened
another board on which is marked the
hour circle as shown. The end of the
polar axis B, that has the end turned
with a shoulder, is fitted in a hole bored
in the center of the hour circle. The
polar axis B is secured to the board
l:v v^<v.^v_'Vl'
■a"
witii a wooden collar and a pin under-
neath. The upper end of the polar axis
is fitted with a %-in, board, C, 5% in.
in diameter. A thin compass card
divided into degrees is fitted on the
edge of this disk for the declination
circle.
The hour circle A is half of a sim-
ilar card with the hour marks divided
into 20 minutes. An index pointer is
fastened to the base of the polar axis.
A pointer 18 in. long is fastened with a
small bolt to the center of the declin-
ation circle. A small opening is made
in the pointer into which an ordinary
needle is inserted. This needle is ad-
justed to the degree to set the pointer
in declination and when set, the pointer
is clamped with the bolt at the center.
A brass tube having a ^-in. hole is
fastened to the pointer.
The first thing to do is to get a true
N and S meridian mark. This can be
approximately obtained by a good
compass, andf allowance made for the
magnetic declination at your own
place. Secure a slab of stone or some
other solid flat surface, level this and
have it firmly fixed facing due south
with a line drawn through the center
and put the equatorial on the surface
with XII on the south end of the line.
Then set the pointer D to the declin-
ation of the object, say Venus at the
date of observation. You now want
to know if this planet is east or west of
your meridian at the time of observa-
tion. The following formula will show
how this may be found. To find a ce-
lestial object by equatorial: Find the
planet Venus May 31, 1881, at 9 hr. 10
min. A. M. Subtract right ascension
of planet from the time shown by the
clock, thus:
hr. min. MC
9 br. 10 ndn. ibowi mean rideriil... 10
Add IS h» IS
18
lOaM ucen^on of Venui 2 10
Set Iwnr dixIc to bcFore meridian .. 10 SO
At 1 br. 80 Tnin. mein clock '' „ ... ,
Ann D SO liderial
Slclrt MTCiuion of Venu. . 2 10
Get bottr drde to S 10 afleraooo
Books may be found in libraries that
will give the right ascension and dec-
lination of most of the heavenljr bodies.
The foregoing tables assume that
you have a clock rated to siderial time,
Honw-HMie Bqiwtoiial
but this is not absolutely necessary. If
you can obtain the planet's declination
on the day of observation and ascertain
when it is due south, all you have to do
is to set the pointer D by the needle
point and note whether Venus has
passed your meridian or not and set
your hour index. There will be no dif-
ficulty in picking up Venus even in
bright sunlight when the plant is vis-
ible to the naked eye.
Electric Light Turned On and Off from
Different Places
How nice it would be to have an
electric light at the turn in a stairway,
or at the top that could be turned on
before starting up the stair and on
reaching the top turned out, and vice
versa when coming down. The wiring
diagram as shown in the illustration
will make this a pleasant reality. This
wiring may be applied in numerous
like instances. The electric globe may
be located at any desired place and the
two point switches are connected in
series with the source of current as
shown in the sketch. The light may be
turned on or off at either one of the
switches, — Contributed by Robert W.
Hall, New Haven, Conn.
How to Make a Buiuen Cell
This kind of a cell produces a high
€. m. I. owing to the low internal resist-
ance. Procure a glass jar such as used
for a gravity battery, or, if one of these
cannot be had, get a glazed vessel of
similar construction. Take a piece of
eheet zinc large enough so that when
it is rolled up in the shape of a cylinder
it will clear the edge of the jar by about
^2 in- Solder a wire or binding-post
to the edge of the cylinder for a con-
nection. Secure a small unglazed vessel
Craca Stction (ud Conplatod CcU
to fit iriside of the zinc, or such a recep-
tacle as used in a sal ammoniac cell,
and fill it with a strong solution of
nitric acid. Fill the outer jar with a
solution of 16 parts water and 6 parts
sulphuric acid. The connections are
made from the zinc and carbon.
Optical Ilturion. — C*n roa tell wtalcb of thue
One Way to Cook Fish
One of the best and easiest Vays of
cooking fish while out camping is told
by a correspondent of Forest and
Stream. A fire is built the size for the
amount of food to be cooked and the
wood allowed to burn down to a glow-
ing mass of coals and ashes. Wash and
season your fish well and then wrap
them up in clean, fresh grass, leaves or
bark. Then, after scraping away the
greater part of the coals, put the fish
among the ashes, cover up with the
same, and heap the glowing coals on
top. The fish cooks quickly — 15 or 20
minutes — according to their size.
If you eat fish or game cooked after
this fashion you will agree that it can-
not be beaten by any method known to
camp culinary savants. Clay also an-
swers the purpose of protecting the
fish or game from the fire if no other
material is at hand, and for anything
that requires more time for cooking
it makes the best covering. Wet paper
will answer, especially for cooking fish,
A successful method of hardening
copper is to add 1 lb. of alum and 4 oz.
arsenic to every 20 lb. of melted copper
and stir for 10 minutes.
I:v v^<v.^v_'Vl^_
Packing Cut from Felt Hats
Felt from an old hat makes good
packing for automobile water-circu-
lating pumps. Strips should be cut
to fit snugly in the stuffing box.
When the follower is screwed down, it
will expand the felt and make a water-
tight joint.
Homemade Gasoline Engine
The material used in the construc-
tion of the gasoline engine, as shown
in the accompanying picture, was
pieces found in a scrap pile that usually
occupies a fence corner on almost
every farm. The cylinder consists of
tened with a pin, and threaded on both
ends. F'langes were next made from
couplings discarded from an old horse-
power tumbling rod, to fit on the
threaded ends of the cylinder cast-
ing. When these flanges were tightly
screwed on the casting and faced off
smooth the whole presented the ap-
pearance of a large spool.
The back cylinder head was made
from a piece of cast iron, about ^ in.
thick, turned to the same diameter as
the flanges, and with a small projection
to fit snugly inside the cylinder bore.
Two holes were then drilled in this
head and tapped for %-in. pipe. Two
pieces of %-in. pipe were fitted to
these holes so that, when they were
Coropkte Homcmidc Oaiollne Baginc
an old pump cylinder, % in, thick, 1%
in. inside diameter and about 5 in. long.
This was fastened between some
wooden blocks which were bolted on
the tool carriage of a lathe and then
bored out to a diameter of about 2 in.
The boring bar, Fig. 1, consisted of an
old shaft with a hole bored through
the center and a tool inserted and held
for each cut by a setscrew. A wood
mandrel with a metal shaft to turn in
the centers of a lathe was made to fit
the bored-out cylinder. The cylinder
was then placed on the mandrel, fas-
turned in, a small part of the end of
each pipe projected on the inside of the
cylinder head. These pieces of pipe
serve as valve cages and are reamed
out on the inside ends to form a valve
seat. The outlet for the exhaust and
the inlet for the gas and air are through
holes drilled in the side of each pipe
respectively and tapped for i^-in, pipe.
Two heads were then made to fit
over the outer ends of the valve
cages. These heads looked similar to
a thread spool with one flange cut off,
the remaining flange fitting on the
lOOglc
Sttp« in llakiof tb* Honw-lfad* OuoUo* EnflDe
end of the valve cage and the center
extending down inside to make a long
guide for the valve stems. These heads
are held in place by a wrought-iron
plate and two bolts, one of which is
plainly shown in the picture. This plate
also supports the rocker arms. Fig. 2,
and the guides for the rods that operate
the valves. Both valves are mechan-
ically operated by one cam attached to
a shaft running one turn to two of the
crankshaft. The gears to run this
shaft were cut from solid pieces on a
small home-made gear-cutting attach-
ment for the lathe as shown in Fig. 3.
The gear on the crankshaft has 20
teeth meshing into a 40-tooth gear on
the cam shaft.
The main part of the frame consists
of a piece of ^-in, square iron, 30 in.
long, bent in the shape of a U, and on
the outside of this piece is riveted a
bent piece of sheet metal Vs in. thick
and 3 in. wide. The U-shaped iron is
placed near one edge of the sheet metal.
Two pieces of 8V^-in. angle iron are
riveted vertically on the ends of the
U-shaped iron and a plate riveted on
them to close the open end and to form
a face on which to attach the cylinder
with bolts or cap screws. A hole was
cut through the angle irons and plate
the same size as the bore of the cylinder
so the piston could be taken out with-
out removing the cylinder, A 1-in.
angle iron was riveted to one side of
the finished frame to make a support
for the crankshaft bearing. The rough
frame. Fig. 4, was then finished on an
emery wheel. This long frame had to
be made to accommodate the cross-
head which was necessary for such a
short cylinder.
The piston and rod were screwed
together and turned in one operation
on a lathe. The three rings were made
from an old cast-iron pulley. The cap
screws were made from steel pump
rods. A piece of this rod was centered
in a lathe and turned so as to shape
six or more screws. Fig. 5, then re-
moved and the first one threaded and
cut off, then the. second and so on until
all of them were made into screws.
The rod was held in a vise for this last
operation. Studs were made by thread-
ing both ends of a proper length rod.
Make-and-break ignition is used on the
engine ; however, a jump spark would
be much better. The flywheel and mix-
ing valve were purchased from a house
dealing in these parts. The water
jacket on the cylinder is a sheet of cop-
per formed and soldered in place, and
brass bands put on to cover the
soldered joints. — Contributed by Peter
J. Johnson, Clermont, Iowa.
If gasoline drips from the carbaretor
when the engine is not running, the
needle valve connected with the float
should be investigated. If the dnpping
stops when the valve is pressed down,
the float is too high. If the valve keeps
dripping, then it should be gronnd to
a fit
d by Google
A Merry-Go-Round Thriller
As a hom« mechanic with a fond-
ness for amusing the children I have
seen many descriptions of merry-go-
rounds, but never one which required
so little material, labor and time, and
which gave such satis-
factoiy results, as the
one illustrated here-
with. It was erected
in onr back yard one
afternoon, the materi-
als being furnished by
an accommodating lum-
ber pile, and . a little
junk, and it has pro-
vided unlimited pleas-
ure for "joy-riders,"
little and big, from all
over the neighborhood.
It looks like a toy, but ~
once seat yourself in it
and begin to go around,
and, no matter what your age or size
may be, you will have in a minute
enough thrill and excitement to last the
balance of the day.
The illustration largely explains it-
self, bat a few dimensions will be a
help to anyone wishing to construct the
apparatus. The upright is a 4 by 4-in.
timber, set 3 ft. in the ground with 8
ft. extending above. It is braced on
four sides with pieces 2 in. square and
2 ft long, butting against short stakes.
The upper end of the post is wound
with a few rounds of wire or an iron
strap to prevent splitting. The cross-
piece is 2 in. square, 12 ft. long,
strengthened by a piece 4 in. square
and 6 ft. long. These two pieces must
be securely bolted or spiked together.
A malleable iron bolt, % in. in diameter
and 15 in. long is the pivot. On this
depends the safety of the contrivance,
so it must be strong enough, and long
enough to keep firmly in the post.
Drive this bolt in a %-in. hole bored
in the post, which will make it a suf-
ficiently tight tit. Make the hole for
the bolt very loose through the cross-
piece, so that there will be plenty of
"wobble," as this is one of the mirth-
making features of the machine. Use
a heavy washer at the head. The
seats are regular swing boards, sup-
ported by a stout and serviceable rope.
A %-in. rope is not too heavy. One
SwlnglBf OB tbe Mirir-Oa-ItoiiBd
set of ropes are passed through holes
at the end of the crosspiece and knot-
ted on top. The other set should be
provided with loops at the top and slid
over the crosspiece, being held in posi-
tion by spikes as shown. This makes
an easy adjustment. Seat the heavier
of the riders on the latter seat, moving
it toward the center until a balance
with the lighter rider is reached. A
rope tied to the crosspiece about 2 ft
from the center, for the "motive power"
to grasp, completes the merry-go-
round. «
Put plenty of soap or grease between
the crosspiece and upright Be sure to
have room for the ropes to swing out
at high speed, with no trees or build-
ings in the way. The "wobble" men-
tioned will give an agreeable undulat-
ing motion, which adds greatly to the
flying sensation. This will be found
surprisingly evident for so small a ma-
chine. As there is no bracing, care
must be taken to have the two riders
sit at the same moment, or the iron
bolt will be bent out of line. If it is
to be used for adults, strong clear ma-
terial only should be employed. — Con-
tributed by C. W. Nieman.
c by Google
How to Make and Fly a Chinese Kite
The Chinese boy is not satisfied with
simply holding the end of a kite string
and running up and down the block or
field tryin? to raise a heavy paper kite
with a half pound of rags for a tail. He
makes a kite as light as possible with-
out any tail which has the peculiar prop-
erty of being able to move in every di-
rection. Sometimes an expert can make
one of these kites travel across the
wind for several hundred feet ; in fact,
I have seen boys a fuU block apart
bring their kites together and engage
18 in. long. This he smears along one
side with common boiled rice. Boiled
rice is one of the best adhesives for use
on paper that can be obtained and the
Chinese have used it for centuries while
we are just waking up to the fact that
it makes tine photo paste. Having
placed the backbone in position, paste
two triangular pieces of paper over the
ends of the stick to prevent tearing.
The bow is now bent, and the lugs ex-
tending from the sides of the square
paper are bent over the ends of the bow
in a combat until one of their kites
floated away with a broken string, or
was punctured by the swift dives of
the other, and sent to earth, a wreck.
The Chinese boy makes his kite as
follows :
From a sheet of thin but tough tis-
sue paper about 30 in. square, which he
folds and cuts along the dotted line,
as shown in Fig, 1, he gets a perfectly
square kite having all the properties of
a good flyer, light and strong. He
shapes two pieces of bamboo, one for
'he backbone and one for the bow.
The backbone is flat, Y^ by ^ in. and
and pasted down. If the rice is quite
dry or mealy it can be smeared on and
will dry almost immediately, therefore
no strings are needed to hold the bow
bent while the paste dries.
After the sticks are in position the
kite will appear as shown in Fig. 8.
The dotted lines show the lugs bent
over the ends of the bow and pasted
down. Figure 3 shows how the band
is put on and how the kite is balanced.
This is the most important part and
cannot be explained very well. This
must be done by experimenting and
it is enough to say that the kite must
lOOglc
balance perfectly. The string is fast-
ened by a slip-knot to the band and
moved back and forth until the kite
flies properly, then it is securely fast-
ened,
A reel is next made. Two ends —
the bottoms of two small peach baskets
will do — are fastened to a dowel stick
or broom handle, if nothing better is
at hand. These ends are placed about
14 in. apart and strips nailed between
them as shown in Fig. 4, and the cen-
ters drawn in and bound with a string.
The kite string used is generally a
heavy packing thread. This is run
through a thin flour or rice paste until
it is thoroughly coated, then it is run
through a quantity of crushed glass.
The glass should be beaten up fine and
run through a fine sieve to make it
about the same as No. 2 emery. The
particles should be extremely sharp and
full of splinters. These particles ad-
here to the pasted string and when dry
are so sharp that it cannot be handled
without scratching the fingers, there-
fore the kite is flown entirely from the
reel. To wind the string upon the reel,
all that is necessary is to lay one end
of the reel stick in the bend of the left
arm and twirl the other end between
the fingers of the right hand.
A Chinese boy will be flying a gaily
colored little kite from the roof of a
house (if it be in one of the large cities
where they have flat-roofed houses)
and a second boy will appear on the
roof of another house perhaps 200 ft.
away. Both have large reels full of
string, often several hundred yards of
it. The first hundred feet or so is
glass-covered string, the balance com-
mon packing thread, or glass-covered
string. As soon as the second boy
has his kite aloft, he begins ma-
neuvering to drive it across the wind
and over to the first kite. First, he
pays out a large amount of string, then
as the kite wabbles to one side with
its nose pointing toward the first kite,
he tightens his line and commences a
steady quick pull. If properly done his
kite crosses over to the other and above
it. The string is now payed out until
the second kite is hanging over the
first one's line. The wind now tends
to take the second kite back to its paral-
lel and in so doing makes a turn about
the first kite's string. If the second
kite is close enough, the first tries to
spear him by swift dives. The second
boy in the meantime is see-sawing his
string and presently the first kite's
string is cut and it drifts away.
It is not considered sport to haul the
other fellow's kite down as might be
done and therefore a very interesting
battle is often witnessed when the ex-
perts clash their kites. — Contributed by
S. C. Bunker, Brooklyn, N. Y.
Home-Made Vise
An ordinary monkey wrench that has
been discarded is used in making this
vise. The wrench is supported by two
L-shaped pieces of iron fastened with
A Swivel Bench Viic
a rivet through the end jaw, and these
in turn are bolted or screwed to the
bench. The handle end is held down
with a staple. The inside jaw is used
in clamping and is operated with the
thumb screw of the wrench. Two holes
bored through the thumb piece will
greatly facilitate setting up th,e jaws
tightly by using a small rod in the
holes as a lever.
The vise may be made into a swing
vise if the wrench is mounted on a
board which is swung on a bolt at one
end and held with a pin at the other
as shown in the illustration. Various
holes bored in the bench on an arc will
permit the board to be set at any angle.
— Contributed by Harry S. Moody,
Newburyport, Mass.
d by Google
Home-Blade Changing Bag for
Plate Holders
, A good bag for changing plates and
loading plate holders and one that the
operator can see well to work in can
ll>d* of BUck Cambric
be made by anyone on a sewing ma-
chine. Ten yards of black cambric or
other black cloth and a little ruby
fabric will be required. Take the cam-
bric and fold it into 2-yd. lengths (Fig.
1) which will make five layers of cloth,
tack or fasten the layers together so
they will not slip and cut an 8-in.
square hole in the middle of one half
(Fig. 2) and sew the ruby fabric over
the opening. Be sure and make the
seam light-tight and have enough lay-
ers of ruby fabric so no white light can
get in. Fold the cloth up so it will be
1 yd. square (Fig. 3) and sew up the
edges to make a bag with one side
open. Put a drawstring in the edge of
the cloth around the open side and the
bag is complete ready for use.
Take the holders and plate boxes in
the lap and put the bag over the head
and down around the body, then draw
the string up tight. A bag made up in
this manner is for use only for a short
time. If it is necessary to do consid-
erable work at a time, then a dust pro-
tector, such as mill men use, must be
attached to a 3-ft. length of 0-in. nib>
ber hose and the hose run through a
hole in the bag. This will make it
possible to work in the bag as long as
you wish. — Contributed by Earl R.
Hastings, Corinth, Vt
Home-Hade Asbestos Table Pads
Asbestos table pads to prevent the
marring of polished table tops from
heated dishes can be easily made at
home much cheaper than they can be
bought. Procure a sheet of asbestos
from a plumbing shop and cut it in the
shape of the top of your table. If the
table is round, make the pad as shown
in the illustration, cutting the circular
piece into quarters. Cut four pieces
of canton flannel, each the size of half
the table top. Two of the asbestos
pieces are used to make one-half of the
pad. Place the two pieces with their
edges together so they will form half
a circle disk and cover both sides with
a piece of the flannel and pin them in
place. A binding of white cotton tape
IS then basted around the edges to hold
all the pieces together until they are
stitched on a sewing machine. A line
of machine stitching is made all around
the outside and through the middle be-
tween where the edges of the asbestos
sheets join together. This will form a
hinge so the two quarters may be
folded for putting away. Makt the
oog Ic
other half circular disk in the same way.
If leaves are wanted in extending the
table, any number of pads can be made
to cover them in the same manner with
the hinge in the middle of each pad.
The flannel is used with the nap side
out so it will make the pad soft and
noiseless. This kind of a pad furnishes
perfect protection to the table from any
heat or moisture. — Contributed by H.
E. Wharton, Oakland, Calif.
How to Uake a Ladies' Handbag
To make this ba^, get a piece of
Russian calf modeling leather. A
shade of brown is the best as it does
not soil easily and does not require
coloring, which spoils the leather ef-
fect.
The dimensions of the full sized bag
are : from A to B, 17^^ in. ; from C to D.
16^ in. ; from E to F, 9^ in. ; G to H,
6^ in., and E to G, ZM in.
Enlarge the accompanying pattern
to the given dimensions, trace this or
some other appropriate design on it,
and then cut the leather the size of the
pattern.
Use a sponge to dampen the leather
on the rough side, not so damp that the
water will come through to the right
side when working, but damp enough
to allow the design to be well impressed
est end of the leather tool or a sharp.
hard pencil, trace the design carefully
on the leather. Moisten the leather as
on the leather. Use a smooth, non-
absorbent surface to lay the leather on
while at work.
Now lay the pattern on the right
«lde of the leather and with the small*
th« LMthcr
often as necessary to keep it sufficiently
moist to work well. Trace the open-
ings for the handles, also lines A-G,
H-B, and E-G, G-J, and corresponding
lines on the other side.
Remove pattern and trace the design
directly on leather with the round point
of tool, until it is made distinct and
in marked contrast to the rest of the
leather. Do not make sharp marks but
round the edges of the lines nicely,
with the rounded sides of the tools.
To complete the bag, get something
with which to make a lining. A piece
of oozed leather is the most satisfac-
tory. Cut it the same size as the bag,
place both together and with a leather
punch, make holes all around the edge
of the bag about ^ in. apart. Cut out
the leather for the handle openings.
Care should be taken not to cut the
holes too near the edge of the bag lest
the lacing pull out Now cut narrow
thongs, about % in. wide, and lace
through the holes, lacing the sides of
the end pieces in with the sides of the
bag. Crease the lines A-G and B-H
inward for ends of bag.
CThe claw of a hammer can be used
for removing the insulation on copper
wire, if not more than 1 in. is taken off
at a time.
Digitized byGOOgIC
A Small Electric MotOT
The drawing herewith shows a sim-
ple electric motor which can be easily
constructed by any boy who is at all
handy with tools. I made this motor
ened to a small piece of brass with
sealing wax. The small brass piece is
fastened to the base with screws. The
bead should not have an eye larger in
diameter than the shaft. The shaft is
made from an old discarded knitting
needle. The brushes are fastened to
each side of the upright piece of wood
supporting the brass bearing B.
The connections to the battery are
shown in Fig. 2. Each half of the com-
mutator C is connected to the coils AA
as shown in Fig. 1. — Contributed by
J. M. Shannon, Pasadena, Calif.
Bltctro-UaEaet Hotor
many times when a boy and can say
that if carefully constructed it will run
with greater rapidity than the more
expensive ones.
A common magnet which can be
purchased at any toy store is used.
The one shown is SVs in- in length.
The armature core is a strip of ■^ by
Vi-ia. iron, 2^ in. long, bent U-shaped
and fastened to the wood flywheel.
Each leg of the armature is wound
with 10 ft. of No. 24 gauge magnet
wire. The commutator is made from
an old 23 cartridge filed into two equal
parts, each being a half circle, both of
which are made fast to a collar on the
shaft E. Each half of the commutator
must be insulated from the other half.
The collar can be made by wrapping
paper around the shaft until the re-
quired size is obtained.
The top end of the shaft runs in a
hole bored in a brass support, B, which
is screwed on the end of a piece of
wood mortised in the base, as shown
in Fig. 1. The lower end of the shaft
runs in a glass bead, D, which is fast-
Moving a Coin Under a Glass
Place a penny or a dime on a table-
cloth, towel or napkin and cover it
over with a glass in such a way that
the glass will rest upon two 25 or 60-
cent pieces as shown in the sketch.
The coin is made to come forth with-
out touching it or sliding a stick un-
der the edge of the glass. It is only
necessary to claw the cloth near the
glass with the nail of the forefinger.
Remorini tbc Coin
The cloth will produce a movement
that will slide the coin to the edge and
from under the glass.
flWhen playing loud and harsh records
on a phonograph the music is often
spoiled by the vibration of the metal
horn. This may be remedied by buck-
ling a valise or shawl strap around the
horn, near the center.
d by Google
How to Make Paper Balloons
Balloons made spherical, or designed
after the regular aeronaut's hot-air bal-
loon, are the best kind to make. Those
having an odd or unusual shape will
not make good ascensions, and in most
^ether right, the pointed ends will
close up the top entirely and the wider
bottom ends will leave an opening
about 20 in. in diameter. A light wood
hoop having the same diameter as the
'i?V
Ptpcr Balloan
cases the paper will catch fire from the
torch and burn before they have flown
very far. The following description is
for making a tissue-paper balloon about
6 ft. high.
The paper may be selected in several
colors, and the gores cut from these,
pasted in alternately, will produce a
pretty array of colors when the balloon
is in flight The shape of a good bal-
loon is shofrn in Fig. 1. The gores
for a 6-ft. balloon should be about 8 ft.
long or about one-third longer than
the height of the balloon. The widest
part of each gore is 16 in. The widest
place should be SS^^ in, fromthe bot-
tom end, or a little over half way from
the bottom to the top. The bottom of
the gore is one-third the width of the
widest point. The dimensions and
shape of each gore are shown in Fig. 2.
The balloon is made up of 13 gores
pasted together, using about Yn-in. lap
on the edges. Any good paste will
do — one that is made up of flour and
water well cooked will serve the pur-
pose. If the gores have been put to-
opening is pasted to the bottom end
of the gores. Two cross wires are
fastened to the hoop, as shown in Fig,
3. These are to hold the wick ball.
Fig, 4, so it will hang as shown in
Fig, 5, The wick ball is made by wind-
ing wicking around a wire, having the
ends bent into hooks as shown.
The balloon is filled with hot air in
a manner similar to that used with the
ordinary cloth balloon. A small trench
or fireplace is made of brick having a
chimney over which the mouth of the
paper balloon is placed. Use fuel that
will make heat with very little smoke.
Hold the balloon so it will not catch
fire from the flames coming out of the
chimney. Have some alcohol ready to
pour on the wick ball, saturating it
thoroughly. When the balloon is well
filled carry it away from the fireplace,
attach the wick ball to the cross wires
and light it.
In starting the balloon on its flight,
take care that it leaves the ground as
nearly upright as possible, — Contrib-
uted by R. E. Staunton.
dbyGOOgIC
A Simple Steamboat Model
The small boat shown in the accom-
i>anying sketch may have a length of
12 to 18 in. and is constructed in the
StcUoaal Vl«w ■nd Complatad Ba*t
following manner: A small steam
boiler. A, is supported •■" Iwo braces
over an alcohol lamp in the middle of
the boat. A small pipe is fastened to
the top of the boiler in such a way that
the open end will be opposite the open
end of another pipe, B, somewhat
larger in size. The pipe B opens into
the stern of the boat at C, as shown in
Fig. 1, The steam, coming through
the small pipe A, is driven forcibly
through the larger pipe B, and carries
with it a certain amount of air out
through the opening C into the water.
As the boat is driven forward by this
force, the steam arises to the surface
in the form of bubbles. The boat soon
attains considerable speed, leaving a
long wake behind.
To Remove Grease from Machinery
A good way to remove grease or oil
from machinery before painting is to
brush slaked lime and water over the
surface, leaving the solution on over
night. After washing, the iron is dried
and the paint will stick to it readily.
In removing grease from wood, com-
mon whitewash may be left on for a
few hours and then washed off with
warm water, after which the paint will
adhere permanently.
-..1
A Game Played on the Ice
Two lines are drawn parallel on the
ice from 50 to 100 ft. apart and blocks
of wood are placed every 6 ft. apart on
these lines. The player
opening the game
skates to the line and
delivers, in bowling
form, a sliding block
similar to the blocks
that are placed on the
lines with the exception
that it has a handle. ^
The blocks are about 6
in. wide by 6 in. hiph
and 8 in. long. The slid-
ing blocks should be at
least 1 ft. long and each
provided with a handle.
The handle is attached
by boring a hole near
one end in the middle
of the block and driving in a wood pin.
The hole is bored slanting so as to in-
cline the handle. Two of these blocks
are provided for the reason that when
a player bowls one of the opposing
player's blocks over the line he is en-
titled to another throw. The side wins
that bowls over all of the opposing
iding Block.
Bowlioi Over the Oppoocnt's Block*
players' blocks first. This will prove
an interesting and enjoyable pastime
for skaters.
z: Iv^lOOglC
Making: Photo Silhouette Brass Plaques
Secare a brass plate having a
;imooth surface the right size for the
photograph and cover it with a coat
of paraffin. This is done by heating
the paraffin in a vessel hot enough to
make the wax run freely, then pouring
the liquid over the entire surface of
the brass.
When the paraffin has cooled suffi*
ciently the outlines of the photograph
must be drawn upon its surface.
There are three ways of doing this:
First, the photograph can be traced on
tissue paper and then retraced on the
paraffin surface. The exact outlines
of the photograph can be obtained
this way without destroying the print.
Second, if you have several copies of
the photograph, one can be utilised
by tracing direct to the surface of the
paraffin. In using either of the two
methods described, carbon paper must
be placed on the paraffin before the tis-
sue paper or photograph is laid upon
it. Third, cut out the outlines of the
photc^raph and lay it on the paraffin
surface, then trace around the edges
with the point of a needle or sharp
point of a knife. The outlines drawn
by the first method are cut through
the paraffin in the same way. The
paraffin is carefully removed from the
inside of the
lines, leaving
the brass sur-
face perfectly
cl can , as
is shown in
Fig. 1.
The exposed
part of the
plate is now
ready to be
etched or
eaten away to
the right
depth with
Wand /i^ puw acid. The
acid solution
is made up of 1% parts muriatic acid
and S parts water. The mixture should
b« placed in a glass or earthenware
vessel. If the plate is a small one a
saucer will do for the acid solution.
Four the acid on the plate where the
paraffin has been removed and allow
it time to .
etch. The
a c i d I
should be |
removed
every five i
m i n u t es I
to exam- |
ine the j
etching. If |
any places I
show up
where the
p a r a f fin
has
not ,
been en-
tirely r e-
nnlifaid PUqna
moved they must be cleaned so the
acid will eat out the metal. When
the acid solution becomes weak new
solution must be added until the
proper depth is secured. Rinse the
plate in cold water, stand in a tray and
heat it sufficiently to run off all the
paraffin. Polish the plate by rubbing
it with a piece of flannel.
The plaque can be given a real an-
tique finish by painting the etched
part with a dull black paint Drill a
small hole in each of the four comers,
being careful not to dent the metal.
The plaque is backed with a piece of
wood % in. thick, the dimensions of
which should exceed those of the brass
plate sufficiently to harmonize with the
size of the plaque. The wood should
be painted black with the same paint
used in the plaque. Paint the heads of
four thumb tacks black and use them in
fastening the plaque to the board. The
finished silhouette will appear as shown
in Fig. 2. — Contributed by John A.
Hellwig, Albany, N. Y.
OAutomobile headlights should be set
to throw the light straight ahead, not
pointed down at the road at an angle.
z:cbv^jOOglC
Tdescope Stand and Holder
With the ordinary small telescope it
is very difficult to keep the line of sight
fixed upon any particular object. To
meet the situation I constructed the
, llidc ot ■ Cunera Tripod
device illustrated herewith. A circular
piece of wood, B, 6 in. in diameter, is
fastened to a common camera tripod,
A, with a set screw, S. Corner irons,
CC, are screwed to the circular piece.
These corner irons are also screwed
to, and supported in a vertical position
by the wood standard D, which is 4 in.
wide and of any desired height. To this
standard is secured the wood shield-
shaped piece E by the screw G upon
which it turns. A semi-circular slit
is cut in the piece G, through which
passes the set screw S. The telescope
is secured to the piece G by means of
the pipe straps FF. Rubber bands are
put around the telescope to prevent
rubbing at the places where the straps
enclose it.
The wood pieces were made of Vz-
in. mahogany well rubbed with linseed
oil to give them a finish. The corner
irons and set screws or bolts with
thumb-nuts can be purchased at any
hardware store. The pipe straps of
different sizes can be obtained from
a plumber's or gas and steam litter's
store. With this device, either a ver-
tical or a horizontal motion may be
secured, and, after bringing the desired
object into the line of sight, the set
screws will hold the telescope in posi-
tion. Any one owning a tripod can
construct this device in three or four
hours' time at a trifling cost. In Fig. 1
is shown the side view of the holder
and stand, and Fig. 3 the front view.
It may be of interest to those owning
telescopes without solar eyepieces to
know that such an eyepiece can be ob-
tained very cheaply by purchasing a
pair pf colored eyeglasses with very
dark lenses and metal rims. Break
off the frame, leaving the metal rims
and nibs at each end. Pla-n-: these over
the eyepiece of tl.c iciescope and se-
cure in place with rubber bands looped
over the nibs and around the barrel
of the instrument. — Contributed by R.
A. Paine, Richmond, Va.
How to Make an Electrical Horn
Secure an empty syrup or fruit can,
any kind having a smooth flat bottom
will do. If the bottom is not perfectly
flat, it will interfere with the regular
tone vibrations, and not produce the
right sound. Remove the label by
soaking it in hot water. Take an ordi-
nary electrical bell and remove the
gong, clip off the striking ball and bend
the rod at right angles. Cut a block
of wood % in. thick, 5 in. wide and
8 in. long for the base. Fasten the
can on it with a piece of sheet brass or
tin as shown in thr sketch. Mount the
bell vibrator on tht; base, using a small
block of wood to elevate it to the level
of the center of the can, and solder the
end of the vibrator rod to the metal.
jOOgIc
Connect two dry cells to the bell vi-
brator, and adjust the contact screw
until a clear tone is obtained. The rap-
idly moving armature of the bell vi-
brator causes the bottom of the can to
vibrate with it, thus producing sound
waves. The pitch of the tone depends
on the thickness of the bottom of the
can. This horn, if carefully adjusted
and using two cells of dry battery, will
give a soft pleasant tone that can be
heard a block away. If the two pro-
jecting parts of the vibrator are sawed
off with a hacksaw, it can be mounted
on the inside of the can. This will
make a very compact electric horn, as
only the can is visible. — Contributed by
John Sidelmier, La Salle, III.
Driving a Washing Machine with
Motorcycle Power
The halftone illus-
tration shows how I
rigged up my washing
machine to be driven
by the power from my
motorcycle. I made a
wheel 36 in. in diameter
of some 1-in. pine
boards, shrunk an iron
band on it for a tire, and
bolted it to the wheel
on the washing ma-
chine. A long belt the
same width as the mo-
torcycle belt was used
to drive the machine.
The motorcycle was
lined up and the engine
started, then the mo-
torcycle belt thrown
off and the long belt run on, connecting
the engine and washing machine wheel.
—I. R. Kidder, Lake Preston, S. D.
Home-Made Aquarium
A good aquarium can be made from
a large-sized street lamp globe and a
yellow pine block. Usually a lamp
globe costs less than an aquarium globe
of the same dimensions. Procure a
yellow pine block 3 in. thick and 12 in.
square. The more uneven and twisted
the grain the better for the purpose, as
Lau^ Qleb* a*
it is then less liable to develop a con-
tinuous crack.
Cut out a depression for the base of
the globe as shown in Fig. 1. Pour in
aquarium cement and embed the globe
in it. Pour more cement inside of the
globe until the cement is level with
the top of the block. Finish with a ring
llacbint Belted to tb* llotorcjrcla
of cement around the outside and
sprinkle with fine sand while the ce-
ment is damp. Feet may be added to
the base if desired. The weight of the
pine block makes a very solid and sub-
stantial base for the globe and renders
it less liable to be upset. — Contributed
by James R. Kane, Doylestown, Pa.
GNever allow lard oil to harden on a
lathe.
d by Google
Frame for Displayit^ Both Sides of
C<Mns
It is quite important for coin collec-
tors to have some convenient way to
E^^
rM.3
Holdinc Coins botmau OliCNs
show both sides of coins without touch-
ing or handling them. If the collection
consists of only a few coins, they can
be arranged in a frame as shown in Fig.
1. The frame is made of a heavy card,
A, Fig. 2, the same thickness as th&
coins, and covered over on each side
with a piece of glass, B. Holes are cut
in the card to receive the coins C. The
frame is placed on bearings so it may
be turned over to examine both sides.
If there is a large collection of coins,
the frame can be made in the same
manner and used as drawers in a cabi-
net. The drawers can be taken out and
turned over. — Contributed by C. Purdy,
Ghent, O.
How to Make Lantern Slides
A great many persons who have
magic lanterns do not use them very
much, for after the slides have been
shown a few times, they become unin-
teresting, and buying new ones or even
making them from photographic nega-
tives is expensive. But by the method
described in the following paragraph
any one can make new and interesting
slides in a few minutes' time and at a
very small cost.
Secure a number of glass plates of
the size that will fit your lantern and
clean them on both sides. Dissolve a
piece of white rosin in a half-pint of
gasoline and flow it over one side of
the plates and allow to dry. Place the
dried plate over a picture you wish to
reproduce and draw the outline upon
the thin film, A lead pencil, pen and
ink or colored crayons can be used, as
the rosin and gasoline give a surface
that can be written upon as easily as
upon paper. When the slide becomes
uninteresting it can be cleaned with a
little clear gasoline and used again to
make another slide. A slide can be made
in this way in five minutes and an in-
teresting outline picture in even less
time than that.
This solution also makes an ideal re-
touching varnish for negatives. — Con-
tributed by J. E. Noble, Toronto,
Canada.
How to Make a Developing Box
A box for developing 3Vi by 414-in.
plates is shown in detail in the accom-
panying sketch. It is made of strips
of wood %-in. thick, cut and grooved,
and then glued together as indicated.
If desired, a heavier piece can be placed
on the bottom. Coat the inside of the
box with paraffin or wax, melted and
applied with a brush. Allow it to fill
all crevices so that the developing box
will be watertight. It will hold 4 oz.
of developer. Boxes for larger plates
— '■>■ — k
M"
DcUUi of tbe DtvelopicK Bos
can be made in the same manner. Use
a small wooden clip in taking the
plates out of the box, being careful not
to scratch the sensitive film. — Contrib-
uted by R. J. Smith, Milwaukee, Wia.
dbyGOOgIC
Staining Wood
A very good method of staining
close-grained woods is to use muriatic
acid. The acid is put on with a brush
like any ordinary stain. The colors
thus obtained are artistic and most
beautiful, and cannot be duplicated by
any known pigment. The more coats
applied the darker the color will be.
This method of staining has the advan-
tage of requiring no wiping or rubbing,
— Contributed by August T. Neyer,
One Cloud, Cal.
She«t-Metal Whisk-Broom Holder
A whisk-broom holder such as is
shown in the accompanying picture
may be easily made by the amateur.
The tools needed are few : a pair of tin
shears, a metal block of some kind
upon which to pound when riveting, a
hammer or mallet, several large nails,
and a stout board upon which to work
up the design. A rivet punch is desir-
able, though not absolutely necessary.
The material required is a sheet of
No, 24 gauge copper or brass of a size
equal to that of the proposed holder,
plus a %-in. border all around, into
which to place the screws that are to
be used to hold the metal to the board
while pounding it. The design shown
in the picture is 6 by 8 in. at the widest
part and has proven a satisfactory
holder for a small broom.
Carefully work out the design de-
sired on a piece of drawing paper, both
outline and decoration, avoiding sharp
curves in the outline because they are
hard to follow with the shears when
cutting the metal. If the design is to
be of two-part symmetry, like the one
shown, draw one part, then fold on a
center line and duplicate this by insert-
ing double-surfaced carbon paper and
tracing the part already drawn. With
this same carbon paper transfer the
design to the metal. Fasten the metal
to the board firmly, using ^/2-in. screws
placed about 1 in. apart in holes pre-
viously punched in the margin with a
nail set or nail.
To flatten the metal preparatory to
fastening it to the board, place a block
of wood upon it and pound on this
block, never upon the metal directly.
or the surface will be dented and look
bad in the finished piece.
Take the nail, a 10 or 20-penny wire
or cut, and file it to a chisel edge,
rounding it just enough to take the
sharpness off so that it will not cut the
metal. This tool is used for indenting
the metal so as to bring out the out-
line of the design on the surface.
There are several ways of working
up the design. The simplest way is to
take the nail and merely "chase" the
outlines of holder design. Remove
the screws, cut oS the surplus metal.
byCOOglC
and file the edges until they are
smooth. Make a paper pattern for the
metal band that is to hold the broom.
Trace around this pattern on the metal
and cut out the shape. Punch rivet
holes in holder and band, also a hole
by which to hang the whole upon the
wall.
Rivet the band to the holder. Punch
the rivet holes with a nail set and make
the holes considerably larger than the
diameter of the rivet, for in flattening
the raised edges the holes will close.
Do the riveting on a metal block and
keep the head of the rivet on the back
of the holder. Round up the "upset"
end of the riveted part as shown in the
picture. Do not bend it over or flatten
it. This rounding is done by pounding
around the outer edge of the rivet end
and not flat upon the top as in driving
a nail.
Clean the metal by scrubbing it off
with a solution composed of one-half
water and one-half nitric acid. Use a
rag tied to a stick and do not allow the
acid to touch either your hands or
clothes. A metal lacquer may next be
applied to keep the metal from early
corrosion.
How to Make a Camp Stool
The stool, as shown in Fig. 1, is
made of beech or any suitable wood
Camp Stool Dttaik
with a canvas or carpet top. Provide
four lengths for the legs, each I in.
square and 18^ in. long; two lengths,
IVs in. square and 11 in. long, for the
top, and two lengths, % in. square, one
8^4 and the other lOVi in, long, for
the lower rails.
The legs are shaped at the ends to
fit into a %-in. hole bored in the top
pieces as shown in Fig. 2, the distance
between the centers of the holes being
?% in. in one piece and 9% in, in the
other. The lower rails are fitted in the
same way, using a ^^-in. hole bored
into each leg Z% in. up from the lower
end.
Each pair of legs has a joint for
folding and this joint is made by bor-
ing a hole in the middle of each leg,
inserting a bolt and riveting it over
— ashers with a washer placed be-
tween the legs as shown in Fig. 3. The
entire length of each part is rounded
off for the sake of neatness as well as
lightness.
About Ya yd. of 11-in. wide material
will be required for the seat and each
end of this is nailed securely on the
under side of the top pieces. The
woodwork may be stained and var-
nished or plain varnished and the cloth
may be made to have a pleasing effect
by stencilling in some neat pattern.
A Small Home-Made Electric Motor
The accompanying photographs
show the construction of a very unique
electric motor, the parts consisting of
the frame from an old bicycle pedal
wrapped with insulated wire to make
the armature and three permanent
magnets taken from an old telephone
magneto. The pedal, being ball bear-
ing, rotated with very little friction
and at a surprisingly high rate of speed.
The dust cap on the end of the pedal
was removed and a battery connection,
having quite a length of threads, was
V \^JV.^V-'V1^_
soldered to it as shown in the photo-
graph. The flanges were removed
from an ordinary spool and two strips
of brass fastened on its circumference
for the commutator. The spool was
held in position by a small binding
post nnt The shape of this nut made
a good pulley for a cord belt, — Con-
tributed by John Shahan, Attalla, Ala
Kocker Blocks on Coaster Sleds
The accompanying sketch shows a
coasting sled with rocker blocks at-
tached on both front and rear runners.
The runners and the other parts of the
sled are made in the usual way, but in-
stead of fastening the rear runners
solid to the top board and the front
runners to turn on a solid plane fifth
wheel, they are pivoted so each pair of
runners will rock when going over
bumps.
The illustration will explain this
construction without going into detail
and giving dimensions for a certain
size, as these rocker blocks can be at-
tached to any coaster or toboggan
sled. It will be noticed that the top
board may bend as much as it will
under the load without causing the
front enfls of the rear runners and the
How to Make a Watch Fob •
This novelty watch fob is made from
felt, using class, college or lodge colors
combined in the making with emblems
or initials colored on the texture. Two
pieces of felt, each ly^ in.
wide and 4^ in. long, are
cut V-shaped on one end
of each piece about 1 in.
in deptii, and % in. in '
from the other end of one
piece cut a slit % in. long;
the end of the other piece
is folded over, making a
lap of about 1 in., and a
slit is cut through the
double thickness to match
the one cut in the first
piece. The desired em-
blem, initial, or pennant is
stenciled on the outside of
the folded piece with class,
college or lodge colors.
The strap is made from a
strip of felt 3-16 in. wide
and 8^4 in. long; stitched
on both edges for appearance. Make
a hole with a punch 1^ in. from one
end, and two holes in the other, one
about 1 in. and the other 2% in. from
the end. Purchase a %-in. buckle
from a harness maker and you will
have all the parts necessary for the fob.
Assemble as shown in the sketch. The
end of the strap having the two holes
is put through the slots cut in the wide
pieces and the tongue of the buckle is
run through both holes. The other end
is passed through the ring of the watch
and fastened in the buckle as in ao
ordinary belt — Contributed by C D,
Luther, Ironwood, Mich.
^
CoHUr Slid with Boekv Ruanm
rear ends of the front runners gouging A good lubricant for drilling is made
into the snow or ice. — Contributed by by dissolving % to 1 lb. of sal-soda io
W. F. Quackenbush, New York City, one pailful of water.
ioog Ic
New Way to Remove a Bottle Stopper
Take a bottle of liquid, something
that is carbonated, and with the aid of
a napkin form a pad which is applied
IttDMving the Stopper
to the lower end of the bottle. Strike
hard with repeated blows against the
solid surface of a wall, as shown in the
sketch, and the cork will be driven out,
sometimes with so much force that a
part of the liquid comes with it and
deluges the spectators, if desired by
the operator.
ImiuttoD Fancy Wings oa Hinges
The accompanying sketch shows
how I overcame the hardware troubles
when I was not able to find ready-made
hinges in antique design for a mission
sideboard and buffet. This method al-
lows a wide range of designs, which
be tarnished and the high places bur-
nished with 000 sandpaper or steel wool,
then lacquered with white shellac or
banana bronzing liquid. — Contributed
by John H. Schatz, Indianapolis, Ind.
Hovr to Make a Child's Soiling Toy
Secure a tin can, or a pasteboard box,
about 3 in. in diameter and 2 in. or
more in height. Punch two holes A,
Fig. 1, in the cover and the bottom, %
in, from the center and opposite each
other. Then cut a curved line from one
hole to the other, as shown at B. A
piece of lead, which can be procured
from a plumber, is cut in the shape
shown in Fig. 2, the size being 1 by 1%
by 1V4 in. An ordinary rubber band is
secured around the neck of the piece of
Pucr Hint* Wngt
can be made at home with ordinary
tools. The wings are made of copper
or brass and finished in repousse, or can
Soiling Can Tojr
lead, as shown in Fig. 3, allowing the
two ends to be free. The pieces of tin
between the holes A, Fig. 1, on both
top and bottom, are turned up as in
Fig. i, and the ends of the bands looped
over them. The flaps are then turned
down on the band and the can parts
put together as in Fig. 5. The can may
be decorated with brilliant colored
stripes, made of paper strips pasted on
the tin. When the can is rolled away
from you, it winds up the rubber band,
thus storing the propelling power
which makes it return, — Contributed
by Mack Wilson, Columbus, O.
lOOglc
How to Hake a Portfolio
Secure a piece of Russian modeling
calf leather of a size equal to 13 by
16 in. Make a paper pattern of the
size indicated in the accompanying
drawing, putting in the
design.
The necessary tools
consist of a stick with
a straight edge and a
tool with an end shaped
like that of a nutpick.
A nutpick with a V-
shaped point will do if
the sharp ness is
smoothed off by means
of a piece of emery
paper, so that it will
indent without cutting
the leather. These
tools can be bought
for this special purpose,
but are not essential
for this piece if the nut-
pick is at hand. There
will also be needed
a level, non-absorbent surface upon
which to lay the leather while working
it A piece of thick glass, metal, or
marble will serve.
Begin work by moistening the
leather on the back side with a sponge
or cloth. Moisten as much as you dare
and still not have the moisture show
on the face side. Next place the
leather on the glass, face up, and, hold-
ing the pattern firmly in place so that
it will not slip — if possible get some
one to hold the pattern for you — place
the straight edge on the straight lines
and mark out or indent After this has
been done, mark over the design. A
pencil may be used the first time over.
The pattern is now to be removed
and all the lines gone over with the
tool to make them deep and uniform.
The surplus stock around the edges
may not be cut off. A neat way to
finish the edges is to punch a series of
holes entirely around through which a
thin leather thong may be laced. If
it is desired to "line" the inside, this
should be done before the holes are
punched or the lacing done.
Gear for Model Work
When a gear is needed to drive a .
small pinion and there is none of the
right size at hand, one can be made in
the following manner : Turn up a wood
Portfolio D«at|a
disk to the proper diameter and % in.
thicker than the pinion, and cut a flat
bottom groove Jfe in. deep in its face.
The edges should be about % in. or
more thick on each side. Measure the
distance between centers of two adja-
cent teeth in the pinion and step this
off around the periphery in the bottom
of the groove. Drill holes into the
wood on each point stepped off and in-
sert steel pins made of wire, allowing
SiMl Pbu In Wood
the end of each to protrude just far
enough to act as a tooth. In this way
a good gear for light work can be
quickly and cheaply constructed-^-Con-
tributed by Henry Scfaaefer, New Yotic
City.
oog Ic
A Hmne-Made Vise
While making a box I had some
dovetailing to do, and as there was no
spiral run for any length of time. The
cardboard will spin around rapidly and
present quite an attraction. — Contribu*
ted by Harry Szerlip, Brooklyn, N. Y.
Vbe OQ Btnch
vise on the bench I rigged up a sub-
stitute. I secured a board % in. thick,
3 in. wide and 30 in. long and bored a
^-in. hole through it, 1 in. from each
end. The board was then attached to
the bench with two screws passing
through washers and the two holes in
the board into the bench top. The
screws should be of a length suitable
to take in the piece to be worked. —
Contributed by A. M. Rice, Syracuse,
New York.
Cardboard Spiral Turned by Heat
A novel attraction for a window dis-
play can be made from a piece of stiff
cardboard cut in a spiral as shown in
Fig. 1. The cardboard should be about
7 or 8 in. in diameter. Tie a piece of
string to the center point of the spiral
Sptnl Cut
and fasten it so as to hang over a gas
jet, Fig. 2. A small swivel must be
put in the string at the top or near the
cardboard, if it is desired to have the
A Workbench for the Amateur
The accompanying detail drawing
shows a design of a portable work-
bench suitable for the amateur wood-
worker. This bench can be made
easily by anyone who has a few sharp
tools and a little spare time. If the
stock is purchased from the mill ready
planed and cut to length, much of the
hard tabor will be saved. Birch or
maple wood makes A very good bench,
and the following pieces should be or-
dered :
Make the lower 'frame first Cut
tenons on the rails and mortise the
posts, then fasten them securely to-
gether with % by 5-in. lag screws as
shown. Also fasten the 1% by 3 by
24-in. pieces to the tops of the posts
with screws. The heads should be
countersunk or else holes bored in the
top boards to fit over them. Fasten
the front top board to the crosspieces
by lag screws through from the under
side. The screws can be put in from
the top for the 1-in. thick top board.
Fasten the end pieces on with screws,
countersinking the heads of the vise
end. Cut the 3-in. square holes in the
1^ by 4% by 10-in. pieces for the vise
slides, and fit it in place for the side
vise. Also cut square holes in the one
end piece for the end vise slides as
shown. Now fit up the two clamps.
Fasten the slides to the front pieces
with screws. Countersink the heads of
the screws so they will not be in the
way of the hands when the vise is used.
The two clamp screws should be about
1^ in. in diameter. They can be pur-
chased at a hardware store. A block
i:v v^n.^v_'viv_
should be fitted under the crosspiece the better ^rade of tools should be
to hold the nut for the end vise. After purchased as they are the cheapest in
when wanted.
1 bench pline or {olnler; 1 jacli plit
driven. 3 *nd 6 in.; 1 couniertink: 1
srUrt "is
try iqiuir*]
yoo have the slides fitted, put them in the long run. If each tool is kept i
place and bore the holes for the clamp a certain place, it can be easily found
screws.
The back board can now be fastened
to the back with screws as shown in
the top view. The bench is now com-
plete, except for a couple of coats of
oil which should be applied to give it
a finish and preserve
the wood. The ama-
teur workman, as well
as the patternmaker,
will find this a very
handy and serviceable
bench for his workshop.
As the amateur work-
man does not always
know just what tools he
will need, a list is given
which will answer for
a general class of work.
This list can be added
to as the workman be*
comes more proficient
in his line and has need
for other tools. Only
d by Google
Repairing a Worn Knife Blade
When the blade of a favorite pocket
knife, after constant use, becomes like
A, Fig. 1, it is more dangerous than
Th« BUde I( Cut Down
useful. To cut down the already worn
blade would leave only a stump, but
if the blade is fastened in a vise and
the point B filed off until it is like C,
Fig. 2, the projecting point A, Fig. 1,
will sink into the handle as shown at
D, Fig. 3, and the knife will be given
a new lease of usefulness. — Contributed
by James M. Kane, Doylestown, Pa.
brass, and moisten the back side with
as much water as it will take and still
not show on the face side. Turn the
leather, lay the design on the face, and
hold it in place while both the outline
and decoration are traced on the sur-
face with a pencil or some tool that will
make a sharp line without tearing the
paper.
After the outlines are traced, go over
the indentations a second time so as
to make them sharp and distinct.
There are special modeling tools that
can be purchased for this purpose, hut
a V-shaped nut pick, if smoothed with
emery paper so that it will not cut the
leather, will do just as well.
Take a stippling tool — if no such tool
is at hand, a cup-pointed nail set will
do — and Stamp the background. It is
intended that the full design shall be
placed on the back and the same design
placed on the front as far as the ma-
terial will allow. Be careful in stamp-
ing not to pound so hard as to cut the
leather. A little rubbing on the point
with emery will take off the sharpness
always found on a new tool.
Having prepared the two sides, they
may be placed together and sewed
around the edges.
If cow hide is preferred, the same
How to Make a Leather Spectacle Case
The spectacle case shown in the
accompanying illustration may be
made of either calf or cow skin. The
calf skin, being softer, will be easier to
work, but will not make as rigid a case
as the cow skin. If calf skin is to be
used, secure a piece of modeling calf.
The extreme width of the case is 2%
in. and the length 6% in. Two pieces
will be required of this size. Put on
the design before the two parts are
sewed together. First draw the design
on paper, then prepare the leather.
Place the leather on a small non-ab-
sorbent surface, such as copper or
Two Dalpu of Cuei
method of treatment is used, but a form
will need to be made and placed inside
the case while the leather is drying to
give it the right shape. The form can
be made of a stick of wood.
jOOgIc
Waterproofing a Wall
The best way to make a tinted vail
waterproof is to first use a material
composed of cement properly tinted
and with no glue in it — one that will
not require a glue size on the wall.
After this coating of cement is applied
directly to the plaster, cover it com-
pletely with water enamel and, when
dry, give the surface a thorough coat-
ing of varnish. This will make a per-
fectly impervious covering, which
steam, water or heat will not affect. —
Contributed by Julia A. White, New
York City.
Polishing Flat Surfaces
The work t)f finishing a number of
brass castings with flat sides was ac-
complished on an drdi-
nary polishing wheel,
from which the first
few layers of cloth
were removed
and replaced
with emery
cloth. The emery
surface of the cloth was
placed outward and
trimmed to the same
diameter as the wheel.
'cHDwaom This made a sanding
and polishing wheel in one. — Contrib-
uted by Chester L. Cobb, Portland,
Maine.
Rubber Tip for Chair Legs
An inexpensive method of prevent-
ing a chair from scratching the floor
is to bore a hole of the
I j proper size in the bot-
I j torn end of each chair
1 I leg and then procure
I I four rubber stoppers of
1 r ■ j uniform size and press
I ■ W them into place.
I j y This cushion of rub-
ber eliminates vibra-
tions, and they will not slip nor mar
the finest surface upon which they rest.
— Contributed by W. A, Jaquythe,
Richmond, Cal.
Adjusting a Plumb-Bob Line
When plumbing a piece of work, if
there is no help at hand to hold the
overhead line, it is common
practice to fasten the plumb
line to a nail or other suit-
able projection.
On coming
down to the
lower floor it is
often found that
the bob has been
secured either
too high or too low. When
fastening the line give it plenty
of slack and when the lower
floor is reached make a double
loop in the line, as shown in the
sketch. Tightening up on the parts
A A will bind the loop bight B, and an
adjustable friction-held loop, C, will be
had for adjusting the bob accurately
either up or down, — Contributed by
Chas. Herrman, New York City.
Drier for Footwear
A drier for footwear can be readily
made by a tinner, or anyone that can
shape tin and solder. The drier con-
sists of a pipe of
sufficient length
to enter the long-
est boot leg. Its
top is bent at
right angles and
the other end is
riveted to a base,
. I an inverted stew-
pan, for instance,
in whose bottom a few perforations
have been made to let air in. The boot
or stocking to be dried is placed over
the pipe and the whole set on a heated
surface. The heat will cause a rapid
circulation of air which will dry the
article quickly, — Contributed by Wm.
Roberts, Cambridge, Mass.
OA very satisfactory repair can be
made by using a good photographic
paste to fasten a torn window shade to
Its roller.
dbyGopgIc
A Shot Scoop
In the ammunition department of
«r hardware store the shot was kept
io regular square bins and dished out
_ h-it'— 1
with a round-bottom scoop. This was
very difficult, especially when the bot-
tom of the bin was nearly reached, as
the round scoop would roll over them
and only pick up a few at a time. To
overcome this difficulty 1 constructed
a square-shaped scoop that gave entire
satisfaction. The scoop can he used
for other purposes as well.
A thick piece of tin, GM by 9% in.,
was marked out as shown, the pattern
being cut on the full lines and bent on
the dotted ones. The strip for the
handle was riveted to the end of
the scoop. — Contributed by Geo. B.
Wright, Middletown, Conn-
appear. If any traces of the grease arc
left, apply powdered calcined magnesia.
Bone, well calcined and powdered, and
plaster of Paris are also excellent ab-
sorbents of grease.
A beautifully bound book, and quite
new, had oil from a lamp spilled over
it. There was no quicklime to be had,
so some bones'were quickly calcined,
pulverized and applied. The next
morning there was no trace of oil, but
only an odor which soon vanished. —
Contributed by Paul Keller, Indian-
apolis, Ind.
Tightening Cane in Pttrmturc
Split cane, used as part of furniture,
such as chair seats, often becomes
loose and the threads of cane pull out.
This can be prevented by sponging
with hot water, or by applying'steam-
ing cloths to the cane. This process
also tightens the shreds of cane and
does not injure ordinary furniture. If
the article is highly polished, care
should be taken to prevent the hot
water from coming in contact with any-
thing but the cane.
Cleaner for a Stovep^
A long horizontal pipe for a stove
soon fills with soot and must be
cleaned. The usual method is to beat
the pipe after taking it down to be
cleaned, but a much better device for
the purpose is shown in the sketch.
A scrub brush is procured and cut in
two, the parts being hinged to a cross-
piece fastened to a long broom handle.
The brushes are pressed outward
Removing Grease Stains from the
Leaves of a Book
Happening to get a grease spot on a
page of a valuable book, I found a way
to remove it without injury to the
paper, which has been tried out
several times with success.
Heat an iron and hold it as near as
against the inside surfaces of the oipe
'ith a wire and spring, as shown. —
possible to the stain without discolor- Contributed by C. L. Herbert, Chicago,
mg the paper, and the grease will dis- Illinois.
d by Google
Hountiiig Photo Prints on GUbs
Photograph prints can be mounted
on glass with an adhesive made by
soaking 1 oz. of sheet gelatine in cold
water to saturation, then dissolving in
3% oz. of boiling water. Let the solu-
tion cool to about 110 deg. R, then im-
merse the print in it and squeegee, face
down, on a clear piece of glass. When
dry, take a damp cloth or soft sponge
and wipe off any surplus gelatine on
the glass.
Dropping Coins in a Glass Full of
Water
Take a glass and fill it to the brim
with water, taking care that the sur-
face of the water is raised a little above
the edge of the glass, but not running
over. Place a
number of nick-
els or dimes on
the table near
the glass and ask
your spectators
how many coins
can be put into
the water with-
out making it
overflow. No
doubt the reply
will be that the
water will run
over before two
coins are dropped in. But it is possi-
ble to put in ten or twelve of them.
With a great deal of care the coins may
be made to fall without disturbing the
water, the surface of which will be-
come more and more convex before
the water overflows.
Hollow-Grinding Ice Skates
The accompanying sketch illustrates
a practical method of clamping ice
skates to hold them for grinding the
small arc of a circle so much desired.
The U-shaped clamps are made of
%-m. soft steel with the opening 6 in.
deep and 6 in. high and are bolted to
a block of wood, 8 in. thick, 6 in. wide
and IS in. long. The skate runner is
adjusted to the proper height by *^
set and thumbscrews. The block
Skata RuDDcr Putintd la Clwnp
of wood holding the clamp and skate
can be pushed along on the emery-
wheel table in front of the revolving
wheel.
If properly adjusted, a slight con-
cave or hollow can be made full length
of the runner, true and uniform, which
will hold on the ice sideways and not
retard the forward movement. — Con-
tributed by Geo. A. Howe, Tarrytown,
New York.
How to Make a Bicycle Coasting Sled
The accompanying drawing and
sketch illustrate a new type of coasting
sled built on the bicycle principle. This
coaster is simple and easy to make,
says Scientific American, It is con-
structed of a good quality of pine. The
pieces marked S are single, and should
be about 1 by iVi '"■ ; the pieces
Hu the Linn of « Bler«lt
marked D are double or in duplicate,
and should be ^ by 1% in. The run-
z: Iv^jOOglC
ners are shod with iron and are pivoted
to the uprights as shown, double pieces
being secured to the uprights to make
a fork. The seat is a board, to the un-
derside of .which is a block, which
drops down between the two top slats
and is secured with a pin. A footrest
is provided consisting of a short cross-
piece secured to the front of the frame
and resting on the two lower slats.
The frame and front fork are hinged
together with four short eyebolts, E,
with a short bolt through each pair as
shown.
Spelling Karnes with Photo Letters
There are, no doubt, many amateur
photographers who make only occa-
sional trips afield or through the more
traveled thoroughfares with their cam-
eras during the winter months. Each
one is generally interested in working
up the negatives that he or she made
during the summer or on that last va-
cation into souvenir post cards, albums
and the like, for sending to friends. Il-
lustrated herewith Is something differ-
ent from the album or photographic
calendar. The letters forming part of
the word POPULAR are good exam-
ples of this work.
The masks which outline the letters
are cut from the black paper in which
plates come packed. Their size de-
pends on the plate used. A sharp knife,
a smooth board and a straightedge are
all the tools needed, says Camera Craft.
If the letters are all cut the same
height, they will look remarkably uni-
form, even if one is not skilled in the
work of forming them all in accord-
ance with the rules. Be sure to have
the prints a little larger than the let-
ters to insure a sufhcient margin in
trimming, so as to have a white mai^n
around the finished letters. The best
method is to use a good pair of scissors
or a sharp knife.
Many combinations can be made of
these letter pictures to spell out the
recipient's name or the season's greet-
ing. During the holidays the letters
may be made from winter scenes to
spell "A Merry Christmas" or "A Hap-
py New Year." An Easter greeting
may have more springlike subjects and
a birthday remembrance a fitting
month. The prints are no more dif-
ficult to make than the ordinary kind.
In cutting out an O, for example, do
not forget to cut out a piece to corre-
spond to the center. This piece can be
d by Google
placed on the printing: paper after the
outline mask has been laid down, using
care to get it in the right position, and
closing the frame carefully so that the
small piece will not be disturbed. The
letters should be of the kind to give as
large an area of surface to have as
much of the picture show as possible.
What the printer calls black face let-
ters are the most suitable.
By cutting the tetters out of black
paper in a solid form, and using these
as a mask for a second printing after
printing the full size of the negatives,
these letter pictures can be made with
a black border. So made, they can be
trimmed to a uniform black line all
around ; and, mounted on a white card
and photographed down to post card
size, the greeting so spelled out makes
a most unique souvenir. Another ap-
plication of the letters in copying is to
paste them on a white card as before,
trim the card even with the bottoms of
the letters, stand the strip of card on a
mirror laid flat on a table, and then
photograph both the letters and their
reflections so as to nicely till a post
card. Still another suggestion is to cut
out the letters, after pasting the prints
on some thin card, and then arrange
them in the desired order to spell out
the name or greeting, but with flowers
interspersed and forming a back-
ground, photographing them down to
the desired size. A third means of se-
curing a novel effect by photographing
down an arrangement of the letters is
to have them cut out in stiff form as in
the last method ; mount them on short
pieces of corks, in turn fastened to a
white, card forming the background.
So arranged, the letters will stand out
from the card about ^ in. If they are
now placed in a light falling from the
side and slightly in front, each letter
will cast a shadow upon the hack-
ground, and in the finished print the
letters will look as if suspended in the
air in front of the surface of the card.
A piece of sheet lead put on each
side of a screw wilt fill up and hold the
threads in a too large hole.
A Checker Board Puzzle
Place eight checker men upon the
checker board as shown in the first row
in the sketch. The puzzle is to get
Pbciiif tha CiMcInn
them in four piles of two men each
without omitting to jump over two
checker men every time a move is
made.
The first move is to jump 5 over 4
and 3 on 2 which is shown in the
second row, then jump 3 over 4 and 6
on 7 and the positions will appear as
shown in the third row ; jump 1 over 2
and 5 on 4 to get the men placed like
the fourth row and the last move is to
jump 8 over 3 and 7 on 6 which will
make the four piles of two men each as
shown in the fifth row, — Contributed
by I. G. Bayley, Cape May Point, N, J.
A Home-Made Rabbit Trap
A good serviceable rabbit trap can be
made by sinking a common dry goods
box in the ground to within 6 in. of its
top. A hole C or 7 in, square is cut in
each end level with the earth's sur-
face and boxes 18 in, long that will
just fit are set in, hung on pivots, with
the longest end outside, so they will
lie horizontal. A labbit may now look
through the two tubes, says the Ameri-
can Thresherman. The bait is hung
on a string from the top of the large
joglc
box so that it may be seen and smelled
from the outside. The rabbit naturally
goes into the holes and in this trap
Rabbit in tba Ttv
there is nothing to awaken his suspi-
cion. He smells the bait, squeezes
along past the center of the tube, when
It tilts down and the game is shot into
the pit, the tube righting itself at once
for another catch. The top and sides
of the large box may be covered with
leaves, snow or anything to hide it.
A door placed in the top will enable
the trapper to take out the animals. By
placing a little hay or other food in the
bottom of the box the trap need not be
visited oftener than once a week.
Old-Time Magic
Cluingiiig K Button into ■ Coin
Place a button in the palm of the left
hand, then place a coin between the
second and third fingers of the right
hand. Keep the right hand faced down
and the left hand faced up, so as to
conceal the coin and expose the button.
With a quick motion bring the left
hand under the right, stop quick and
Baking th* Clwnft
the button will go up the right-hand
coat sleeve. Press the hands together.
allowing the coin to drop into the left
hand, then expose again, or rub the
hands a little before doing so, saying
that you are rubbing a button into a
coin. — Contributed by L. E, Parker,
Pocatello, Idaho.
Buttonhole Trick
This trick is performed with a small
stick having a loop attached that is too
small for the stick to pass through.
Spread out the
string and place it
each side of the
buttonhole, then
draw the cloth
around the hole
through the
string until it is
far enough to pass
the stick through
the hole. Pull
back the cloth and
you have the
string looped in
the hole with a hitch the same as if the
stick had been pas&:d through the
string.
The stick may be removed by pulling
up the loop as if you were passing the
stick through it, putting the stick in
the hole and leaving the string on the
outside, then spread the string, pulling
up the cloth and passing the stick
through the hole as before. — Contrib-
uted by Charles Graham, Pawtucket,
Rhode Island.
How to Remove Paper
from Stamps
Old stamps as they are purchased
usually have a part of the envelope
from which they are taken sticking to
them and in removing this paper many
valuable stamps are torn or ruined.
Place all the stamps that are stuck to
pieces of envelopes in hot water and
in a short time they can be separated
without injury. Dry the stamps be-
tween two white blotters. Stamps re-
moved in this way will have a much
better appearance when placed in an
album. — Contributed by L. Szerlip,
Brooklyn, N. Y.
d by Google
Imitation Arms and Armor
Genaine antique swords and armor,
a-1 used by the knights and soldiers in
' the days of old, are very expensive and
At the present time practically impos-
sible to obtain. The accompanying
illustration shows four designs of
swords that anyone can make, and if
carefully made, they will look very
much like the genuine article.
The drawings are so plain that the
amateur armorer should
have very little difficul-
ty, if any, in building up
his work from the illus-
trations, whether he re-
quires a single sword
only, or a complete suit
of armor, full size.
The pieces or designs
in this article are from
authentic sources, says
the English Mechanic,
so that where names are
given the* amateur can
so label them, and will
thereby greatly add to
their interest and value.
An executioner s'
sword of the fifteenth
century is shown in Fig.
1. The blade should be
about 27 in. long with a
handle of sufficient
length to be grasped by
both hands. The width of the blade
near the handle is about 2^ in., taper-
ing down to IV^ in. near the point end.
Several ridges are cut around the
handle to permit a firm grip. The
cross guard is. flat and about 1 in. in
width.
Mark out the shape and size of the
blade on a piece of wood ^ in. thick,
using a straightedge and a pencil, and
allowing a few inches more in length
on which to fasten the handle. Cut out
the wood with a scroll saw or a key-
hole saw, trim the edges down thin
and smooth both surfaces with fine
sandpaper. The end for the handle is
cut about 1 in. wide and 2 in. long. The
cross guard is cut out and a hole made
in the center through which to pass the
handle end of the blade. The handle
is next made, and if the amateur does
not possess a lathe on which to turn the
shape of the handle, the ridges around
the wood may be imitated by gluing
and tacking on pieces of small rope.
The handle is then mortised to receive
the 1 by 2-in, end of the blade. The
cross gttard is now glued and placed
Wtl
nc.«
Pig. a
Pic. <
on the blade, then the hole in the
handle is well glued with glue that is
not too thick and quite hot. The blade
with the cross guard is inserted in the
handle and allowed to set. When the
glue is thoroughly dry, remove the sur-
plus with a sharp knife and paint the
handle with brown, dark red, or green
oil paint. The blade is covered with
tinfoil to pve it the appearance of
steel. Secure some pieces of tinfoil
and cut one strip ^ in. wider than the
blade and the other 14 in. narrower.
Quickly paint the blade well with ihin
glue on one side, then lay evenly and
press on the narrow strip of tinfoil.
Glue the other side of the blade, put on
the wider strip of tinfoil and glue the
z: Iv^jOOglC
overlapping edgt and press it around
and on the suruce of the narrow strip.
The cross guard must be covered with
tinfoil in the same manner as the blade.
When the whole is quite dry, wipe the
blade w-th light strokes up and down
several times, using a soft and dry
piece of cloth. The sword is then ready
to hang in its chosen place as a deco-
ration, not for use only in cases of
tableaux, for which this article will be
especially useful to those who are ar-
ranging living pictures wherein swords
and armor are part of the parapher-
nalia.
A Chinese scimitar is shown in Fig.
2. The handle of this sword is oval
and covered with plaited cord. In
making this scimitar, follow the direc-
tions as for Fig. 1, except that the
handle has to be covered with a round
black cord. If it is found difficult to
plait the cord on the handle as in the
illustration, wind it around in a contin-
uous line closely together, and finish
by fastening with a little glue and ^
small tack driven through the cord int^
the handle. The pommel is a circula)*
piece of wood, Ys in. thick and 5 in. in
diameter. The length of the handle,
allowing for a good hold with both
hands, should be about 9 in., the lepgth
of the blade 28 in., the width near the
pommel 1^ in. and 3 in. in the widest
part at the lower end. The sharp or
cutting edge is only on the short side,
the other is flat or half-round.
A Turkish sabre of ancient manufac-
ture from Constantinople is shown in
Fig. 3. The handle is painted a dull
creamy white in imitation of ivory.
The enamel paint sold in small tins will
answer well for this purpose. The
cross guard and blade are covered as
described in Fig. 1. The sharp edge is
on the longer curved side, the other is
flat or half-round.
A two-handed sword used in the 14th
and I5th centuries is shown in Fig. 4.
This sword is about 68 in. long, has a
cross guard and blade of steel with a
round wood handle painted black. The
ball or pommel on top of the handle is
steel. Both edges of the blade are
sharp. This sword is made tn wood the
same as described for Fig. 1.
A Dovetail Joint Puzzle
A simple but very ingenious example
in joinery is illustrated. In the fin-
ished piece. Fig. 1, the dovetail appears
on each side of tfie square stick of
How tht Joint li Cm
wood, the illustration, of course, shows
only two sides, the other two are identi-
cal. The joint is separable and each
part is solid and of one piece. In mak-
me, take two pieces of wood, prefer-
ably of contrasting colors, such as
cherry and walnut or mahogany and
boxwood, about 1^ in. square and of
any length desired. Cut the dovetail
on one end of each stick as shown in
Fig. 2, drive together and then plane
off the triangular comers marked A,
The end of each piece after the dove-
tails are cut appear as shown in Fig. 3,
the lines marking the path of the dove-
tail through the stick.
Pure rain water is the best to use in
a cooling system of an automobile en-
gine, as it is free from the mineral sub-
stances which are deposited in the ra-
diator, piping and jackets by hard
water.
d by Google
{^ningboard fi^r Swimmers
A good springboard adds much to
the fun of swimming. The boards are
generally made so that the plank will
bend, being dressed down thin at one
end and fastened. The thinness of the
plank, or an insecure fas-
tening, causes many a
plank to snap in two or
come loose from its fas-
tenings in a short time.
The accompanying
sketch shows the method
of constructing a spring-
board that does not depend
upon the bending of the
wood for its spring. It is
made of a plank, 2 in. thick
and from 14 to 16 ft. long,
one end of which is secured
with a hinge arrangement
having a U-shaped rod
whose ends are held with
nuts. On each edge of the
board, at the lower end, are
fastened two pieces of
strap iron, each about 1 ft.
long and with the lower
ends drilled to fit the hori- ]
zontat of the U-shaped rod.
Secure a pair of light buggy springs
from a discarded rig and attach them
to the ends of a square bar of iron hav-
ing a length equal to the width of the
plank. Fasten this to the plank with
bolts, as shown in the sketch. Should
the springs be too high they can be
r Sprinn Uaad baaaath tha Bsud
moved forward. — Contributed by John
Blake, Franklin, Mass.
Taking Button from a Child's Nostril
A three-year-old child snufled a but-
ton up its nostril and the mother, in an
attempt to remove it, had caused the
button to be pushed farther up the
channel. Doctors probed for the but-
ton without success. The distracted
mother happened to think of snuff,
and, as there was some at hand, took
a pinch of snuff between the thumb
and forefinger and held it close to the
child's nose. The violent sneezing
caused the button to be blown out.
Such an accident may come under the
observation of any parent, and if so,
this method can be used to relieve the
child when medical assistance is not
at hand. — Contributed by Katharine D.
Morse, Syracuse, N. Y.
Brass Frame in Repouss^
Punches can be purchased, as can
the pitch bed or block. Both can be
made easily, however. Several punches
of different sizes and shapes will be
needed. A piece of mild steel, about
% in. square, can be easily worked into
tools shaped as desired. A cold chisel
will be needed to cut the metal to
length; a file to reduce the ends to
shape, and a piece of emery paper to
smooth and polish the end of the tool
so that it will not scar the metal.
A small metal box must be secured
to hold the pitch. The illustration
shows an iron receptacle. The pitch
is prepared by heating the following
materials in these proportions: pitch,
5 lb. ; plaster of Paris, 6 lb. ; tallow, %
z: Iv^jQOglC
Dcdso for the Frana
lb. To put it in another way, use pitch
and plaster in equal parts with 1/10
part tallow. See that the pitch and
plaster are dry so that the moisture
will not cause the pitch to boil over.
Keep stirring the mass so that it never
boils. Melt the pitch 6rst and add the
plaster by degrees.
For a piece of repousse such as the
frame show;i, secure a piece of brass
of about No. 18 gauge. With carbon
' paper trace the design on the brass.
Place the metal on the pitch bed and
work over the outline of the design.
Use the chisel-edged tool and try to
(l | |lll,'llll|T (|[ll"-
Workini Ont thi DadfB
make the lines continuous. When this
has been done, heat the pitch slightly
and place the metal, design down, on
the pitch, and with the raising punches
work up the shape as desired after the
pitch has hardened. When the desired
form has been obtained, turn the metal
over and "touch up" any places im-
properly raised. The metal will proba-
bly be warped somewhat. To remedy
this, place a board on the metal and
pound until the metal assumes a flat
shape again. Next drill a hole in the
center waste and saw out for the open-
ing, using a small metal saw. Trim up
the edges and file them smooth.
Qean the metal thoroughly, using
powdered pumice with lye. Cotton bat-
ting fastened to the end of a stick will
make a good brush. Upon the cleansed
metal put a lacquer to prevent tarnish-
ing. Metal clips may be soldered to
the back to hold the picture in place
and also a metal strip to hold the framr
upright. These should be placed be-
fore the metal is lacquered.
Finding the Horsepower of
Small Motors
A small motor often excites curi-
osity as to its true horsepower, or frac-
tion of a horsepower. Guesses in this
direction vary remarkably for the same
motor or engine. It is comparatively
easy to determine the horsepower put
out by almost any machine by the fol-
lowing method which is intended for
small battery motors and small steam
engines.
Before giving the description, it
may be well to know what horsepower
means. Horsepower is the rate of
work and a unit is equal to 33,000 ft.
lb. per minute, or 550 ft, lb, per second.
That is lifting 33,000 lb. 1 ft in one
minute or 550 lb. 1 ft. in one second.
This may be applied to the problem of
finding the horsepower of a motor by
fastvitng a piece of twine about 25
ft. long to the shaft of the engine or
motor to be tested in such a way that
when the shaft revolves it will wind
up the string similar to a windlass.
Place the motor in such a position
that the twine will hang freely without
touching anything; out of a high win-
l:v v^<v.^v_'Vl^_
dow will do. Fasten a weight to the
other end of the line as heavy as the
motor or engine can lift and still run.
It must weigh enough to slow the
power down a little, but not to stop it
Mark the position of the weight and
start the motor, at the same time ac-
curately measuring time in minutes
and seconds it takes to lift the weight
from the lowest point to the highest
Next measure accurately the distance
in feet covered by the weight in its
ascent and obtain the correct weight
in pounds of the weight.
Multiply the weight by the distance
covered and divide the result by the
number of minutes or fraction of a
minute obtained and divide this last
result by 33,000 and the quotient wilt
be the horsepower of the motor or
engine.
Perhaps an illustration will make
this solution much plainer. Suppose
the motor wtl' lift a weight of 1 lb. and
still re/oive, 30 ft, in 10 seconds or 1/6
of a minute. Multiplying 1 by 30 we get
30, which divided by 1/6 gives 180.
This in turn divided by 33,000 equals
in round numbers 1/200 part of a
horsepower. — Contributed by Harold
H. Cutter.
Illusion for Window Attraction
Gold fish and canary birds, living to-
gether in what seems like one recepta-
cle, make an unusual show window
attraction. Secure two glass vessels
having straight sides of the same
height, one 18 in, in diameter (Fig. 1)
and the other 13 in. in diameter (Fig.
3). The smaller is placed within the
larger, the bottoms being covered with
moss and aquarium decorations which
can be purchased at a bird store. Fill
the 3-in. space between the vessels with
water. Cut a piece of galvanized screen
into circular form to cover the larger
vessel, and hang a bird swing. A, Fig.
3, in the center. Place the screen on
top of the vessels so that the swing
will hang in the center of the inner ves-
sel. A weight — a box filled with sand
will do— should be placed on top of the
screen, over the smaller vessel, to keep
it from floating. Moss should be put
over the top of the screen so that the
two separate vessels can not be seen.
Bird* and Fiih Appucnllr TacMhct
Place the birds in the inner vessel and
the fish in the water. The effect is
surprising. To complete the effect and
aid the illusion the vessels can be set
in a box lined with black velvet, or on
a pedestal.^-Contributed by J. F.
Campbell, Somerville, Mass.
Cleaner for White Shoes
Finely ground whiting mixed with-
water to the consistency of paste
makes a very good coating for white
shoes, A brush can be used in apply-
ing the mixture which will dry in a few
minutes. It is best to mix only as
much paste as required for immediate
use. — Contributed by L. Szerlip,
Brooklyn, N. Y.
CBelt laces should never cross on the
side next to the pulley as they will cut
themselves in two.
lOOglc
How to Make a Candlestick Holder
A candlestick of very simple con-
struction and design can be made as
follows: Secure a piece of brass or
Cuiille Holder Complete
copper of No. 23 gauge of a size suf-
ficient to make the pieces detailed in
the accompanying sketch. A riveting
hammer and a pair of pliers will be
needed, also a pair of tin shears and a
piece of metal upon which to rivet.
Cut out a piece of metal for the base
to a size of 6H by 5^2 in. Trim the
sharp corners off slightly. Draw a
pencil line all around the margin and
% in. away from the edge. With the
pliers shape the sides as shown in the
illustration.
Next lay out the holding cup accord-
ing to the plan of development shown,
and cut out the shape with
the shears. Polish both of
these pieces, using any of
the common metal polishes.
■Rivet the cup to the base,
and then, with the pliers,
shape the sides as shown
in the photograph. The
manner of making and fas-
tening the handle is clearly
illustrated. Use a file to
smooth all the cut edges so
that they will not injure
the hands.
In riveting, care should be taken to
round up the heads of the rivets nicely
as a good mechanic would. Do not be
content merely to bend them over.
This rounding is easily accomplished
by striking around the rivets' outer cir-
cumference, keeping the center high.
A good lacquer should be applied
after the parts have been properly
cleaned and polished, to keep the metal
from tarnishing.
A Home-Made Duplicator
The usual gelatine pad, which is the
principal part of the average hecto-
graph or duplicator, is, as a rule, un-
satisfactory, as it is apt to sour and
mold in the summer and freeze in the
winter, which, with other defects, often
render it useless after a few months
service.
A compound that is almost inde-
structible is the preparation sold at art
stores as modeling clay. This clay is
as easily worked as a putty and is
spread into the tray, which may be of
wood or tin, and the surface leveled by
pounding with a mallet or hammer,
then by drawing a straightedge over it.
The surface of the pad is now sat-
urated with pure glycerine. This is
poured upon the surface after it is
slightly warmed, covering the same
and then laying a cloth over the pad
and allowing it to stand long enough
for the clay to absorb the glycerine,
after which it is ready for use.
The original copy is written with a
copying pencil or typewritten through
a hectograph ribbon. A sheet of
newspaper is laid upon the pad and a
round stick or pencil is passed over it
r-FP^P^
DcUib of Cuidle Holdu
to make the surface level and smooth.
Remove the newspaper and place the
original copy face down on the leveled
surface and smooth it out in the same
way so that every part touches the
pad. Remove the copy in about five
minutes and place the clean sheets of
paper one after another on the surface
and remove them. From 50 to 75
copies of the original can be made in
a short time.
dbyGOOgIC
This compound is impervious to
water, so the negative print is removed
by simply washing with a damp
sponge, the same as removing writing
from a slate. This makes it possible
to place another original on the pad
immediately without waiting for the
ink to vanish by chemical action as in
the original hectograph.
The action of the weather has no
effect upon this compound and it is
proof against accident, for the tray
may be dropped and the pad dented
or cut into pieces, and the clay can be
pressed back and leveled. The only
caution is to keep it covered with a
cloth saturated in glycerine while not
in use.— Contributed by A. A. Hough-
ton, NorthviUe, Mich.
tube, % in. in diameter and 5 in. long.
A hole is filed or blown through one
side of the glass for the admission of
air. The ends of the smaller glasi
Paper-Clip Bookmark
The combination of a paper clip and
a calling card makes a good book-
m a r k.
The clip
and card
can be
kept to-
gether by
p ie rcing
the card
and bend-
ing the
ends of
the wire to stick through the holes.
The clip is attached to a page as shown
in the sketch. — Contributed by Thos.
DeLoof, Grand Rapids, Mich.
Aerating Water in a Small Tank
A simple way of producing air pres-
sure sufficient to aerate water is by the
use of a siphon as shown in Fig. 1.
The siphon is made of glass tubes, the
longer pieces being bent on one end as
shown. The air receiver and regulat-
ing device are attached to the top end
of the lower tube, as shown in Fig, Z.
The receiver or air inlet is the most
important part. It is made of a glass
Fift.1 n*^
Fordng Ail Tbrouih WaMr
tubes are passed through corks having
a diameter to fit the ends of this larger
tube. The ends of these tubes should
be so adjusted that the continuous
drops of water from the upper will
fall into the tube below. The succes-
sion of air bubbles thus imprisoned are
driven down the tube and into the tank
below.
The regulator is placed in the tube
or siphon above the air receiver. Its
purpose is to retard the flow of water
from the siphon above and make it
drop rapidly. It consists of a rubber
connectmg tube with two flat pieces of
wood clamped over the center and ad-
justed with screws. The apparatus is
started by clamping the rubber tube
tightly and then exhausting the air in
the siphon tube, then placing the end
in the upper reservoir and releasing
the clamp until the water begins to
drop. If the reservoir is kept filled
from the tank, the device will work for
an indefinite time. — Contributed by
John T. Dunlop, Shettleston, Scotland.
z: Iv^jOOglC
Imitation Arms and Amat—Part II
Imitation swords, stilettos and battle-
axes, put up as ornaments, will look
well if they are arranged on a shield
which is hung high up on a wall
of a room or hall, says the English
!
I ■
Thrae nftwotb Ccnnny Smnd*
Mechanic, London. The following de-
scribed arms are authentic designs of
the original articles. A German sword
of the fifteenth century is shown in
Fig. 1. This sword is 4 ft. long with
the crossguard and blade of steel. The
imitation sword is made of wood and
covered with tinfoil to produce the steel
color. The shape of the sword is
marked out on a piece of wood that is
about ^ in. thick with the aid of a
straightedge and pencil, allowing a
little extra length on which to fasten
the handle. Cut the sword out with a
saw and make both edges thin like a
knife blade and smooth up with sand-
paper. The extra length for the handle
is cut about 1 in. in width and 2 in.
long._ The handle is next carved and a
mortise cut in one end to receive the
handle end of the blade. As the handle
is to represent copper, the ornamenta-
tions can be built up of wire, string,
small rope and round-headed nails, the
whole finally having a thin coat of glue
worked over it with a stiff bristle brush
and finished with bronze paint.
The crossbar is flat and about 1 in.
in width. Cut this out of a piece ot
wood and make a center hole to fit over
the extra length on the blade, glue and
Sut it in place. Fill the hole in the
andle with glue and put it on the
blade. When the glue is thoroughly
dry, remove all the surplus with a sharp
knife. Sheets of tinfoil are secured for
covering the blade. Cut two strips of
tinfoil, one about ^ in. wider than the
blade and the other ^ in. narrower.
Quickly cover one side of the blade
with a thin coat of glue and evenly lay
on and press down the narrow strip of
tinfoil. Stick the wider strip on the
other side in the same way, allowing
equal margin of tinfoil to overlap the
edges of the blade. Glue the overlap-
ping edges and press them around on
the surface of the narrow strip. The
crossguard must be covered in the same
manner as the blade. When the whole
is quite dry, wipe the blade up and
down several times with light strokes
using a soft rag.
The sword shown in Fig. S is a
two-handed Swiss sword abt^t 4 ft in
length, sharp on both edges with a
handle of dark wood around which is
wound spirally a heavy piece of brass
or copper wire and held in place with
round-headed brass nails. The blade '
and crossbar are in imitation steel. The
projecting ornament in the center of
the crossguard may be cut from heavy
pasteboard and bent into shape, then
glued on the blade as shown.
In Fig. 3 is shown a claymore, or
Scottish sword of the fifteenth century.
This sword is about 4 ft, long and has
a wood handle bound closely around
with heavy cord. Tlie crossbar and
blade are steel, with both edges sharp.
A German poniard is shown in Fig. 4.
This weapon is about 1 ft. long, very
broad, with wire or string bound
handle, sharp ede^s on both sides. An-
other poniard of the fourteenth century
is shown in Fie 5. This weapon is also
about 1 ft. lone with wood handle and
steel embossed blade. A sixteenth
century German poniard is shown tn
Fig. 6. The blade and ornamental
l:v v^<v.^v_'Vl^_
crossbar is of steel, with both edges of
the blade sharp. The handle is of wood.
A German stiletto, sometimes called
cuirass breakers, is shown in Fig, 7.
This stiletto has a wood handle, steel
crossbar and blade of steel with both
edges sharp.
In Fig. 8 is shown a short-handled
flail, which is about 2% ft. long with
a dark handle of wood, studded with
brass or steel nails. A steel band is
placed around the handle near the top.
The imitation of the steel band is made
by gluing a piece of tinfoil on a strip
of cardboard and tacking it to the
handle. A large screweye is screwed
into the top of the handle. The spiked
ball may be made of wood or clay.
Cover the ball with some pieces of
linen, firmly glued on. When dry, paint
it a dark brown or black. A large
screweye must be inserted in this ball,
the same as used on the end of the
handle, and both eyes connected with
a small piece of rope twisted into shape.
The rope is finished by covering with
tinfoil. Some short and heavy spike-
headed nails are driven into the ball to
give it the appearance shown in the
illustration.
A Russian knout is shown in Fig. 9.
The lower half of the handle is of wood,
the upper part iron or steel, which can
be imitated by covering a piece of wood
that is properly shaped with tinfoil.
The whole handle can be made of wood
in one piece, the lower part painted
black and the upper part covered with
tinfoil. A screweye is screwed into the
upper end. A length of real iron or
steel chain is used to connect the handle
with the ball. The ball is made as de-
scribed in Fig. 8. The spikes in the
ball are about 1 in. in length. These
must be cut from pieces of wood, leav-
ing a small peg at the end and in the
center about the size of a No. 20 spike.
The pegs are glued and inserted into
holes drilled into the ball.
In Fig. 10 is shown a Sclavonic
horseman's battle-axe which has a
handle of wood painted dark gray or
light brown ; the axe is of steel. The
blade is cut from a piece of ^-in. wood
with a keyhole saw. The round part is
made thin and sharp on the edge. The
thick hammer side of the axe is built
up to the necessary thickness to cover
Ancient Wetpca
the handle by gluing on pieces of wood
the same thickness as used for the
blade, and gradually shaping off to the
middle of the axe by the use of a chisel,
finishing with sandpaper and covering
with tinfoil. Three large, round-headed
brass or iron nails fixed into the front
side of the handle will complete the axe.
At the beginning of the sixteenth
century horseman's battle-axes shaped
as shown in Fig. 11 were used. Both
handle and axe are of steel. This axe
is made similar to the one described
in Fig. 10. When the woodwork is
finished the handle and axe are covered
with tinfoil.
How to Hake a Round Belt Without
Ends
A very good belt may be made by
laying several strands of strong cord,
such as braided fishline, together as
shown in Fig. 1 and wrapping them as
shown in Fig. 2. When wrapped all
the way around, the ends are tied and
cut oflf. This will make a very good
flexible belt ; will pull where other belts
ioog Ic
slip, and as the tension members are
all protected from wear, will last until ^
the wrapping member is worn through
without being weakened. — Contributed
by E. W. Davis, Chicago.
Oid-Time Magic
The Qrowlag Flower
This trick is performed with a wide-
mouthed jar which is about 10 in. high.
If an earthern jar of this kind is not at
hand, use a glass fruit jar and cover it
with black cloth or paper, so the con-
Flowci Oram Iniunll)'
tents cannot be seen. Two pieces of
wire are bent as shown in Fig. 1 and
put together as in Fig. 2. These wires
are put in the jar, atwut one-third the
way down from the top, with the circle
centrally located. The wires can be
held in place by carefully bending the
ends, or using small wedges of wood.
Cut a wire shorter in length than
the height of the jar and tie a rose or
several flowers on one end. Put a cork
in the bottom of the jar and stick the
opposite end of the wire from where
the flowers are tied through the circle
of the two wires and into the cork. The
dotted lines in Fig. 3 show the position
of the wires and flowers.
To make the flowers grow in an in-
stant, pour water into the jar at one
side of the wide mouth. The cork will
float and carry the wire with the flowers
attached upward, causing the flowers
to grow, apparently, in a few seconds'
time. Do not pour in too much watei
to raise the flowers so far that the wire
will be seen. — Contributed by A. S.
Macdonald, Oakland, Calif.
Water and Wine Ttkk
This is an interesting trick based on
the chemical properties of acids and
alkalies. The materials needed are:
One glass pitcher,fiIledwithwater,four
glass tumblers, an acid, an alkali and
some phenolphthalein solution which
can be obtained from your local drug-
gist. Before the performance, add a
few drops of the phenolphthalein to the
water in the pitcher and rub a small
quantity of the alkali solution on the
sides of two of the tumblers and repeat,
only using as large a quantity of the
acid as will escape notice on the re-
maining tumblers. Set the tumblers so
you will know which is which and pro-
ceed as follows : Take hold of a pre-
pared tumbler with the left hand and
pour from the pitcher, held in the right
hand, some of the liquid. The liquid
turned into the glass will become red
like wine. Set this full tumbler aside
and take the pitcher in the left hand
and pour some of the liquid in one of
the tumblers containing the acid as it
is held in the right hand. There will
be no change in color. Repeat both
parts in the same order then begin
to pour the liquids contained in the
tumblers back into the pitcher in the
order reversed and the excess of acid
will neutralize the alkali and cause it
to lose its color and in the end the
pitcher will contain a colorless liquid.
— Contributed by Kenneth Weeks,
Bridgeton, N. J.
The life of iron shingle nails is about
fi years. An iron nail cannot be used
again in putting on a new roof. Solid
zinc nails last forever and can be used
as often as necessary. As zinc is much
lighter than iron, the cost of zinc nails
is only about S^ times that of iron
nails.
d by Google
Cutdng^ Lantern Slide Masks
It has long been a puzzle to me why for height, place the guide over a piece
round cornered masks are almost in- of black mask paper and prick through
variably used for lantern slides, when the proper intersections with the point
most works of art are included within of a pin. This outlines the desired
rectangu-
lar spaces, says
a correspond-
ent of Photo
Era. Certainly
the present
c o m m e r-
cial masks are
in very poor
taste. The
worker who
wishes to make
the most of
every slide will
f^j well to cut
^is own masks,
not only be-
cause of the
fact just men-
tioned, but also
because he can
suit the size of
the opening to
the require-
ments of each
slide. Slides
- __
^Z Z ~ Z ~ Z I^^^Z!ZZZZ^ZZ^^ Z Z I z *
s >
4 ; Z Z Z Z Z i
I Z Z Z Z I z »
L. jJ_ J_ jJ L _U J. J
pDmi tar Uarklac Out Sacuncutat Linuni Mid* II
can be works of art just as much as opening, which may then be cut out
prints; so that masking a slide be- easily with a knife and straight edge.
The black paper from plate boxes
and film rolls is excellent for making
masks. It should be cut up in pieces
3^ by 4 in. and kept ready for use
at any time.
Relieving the Weight of a Talking-
Machine Reproducer
Too loud reproduction from a rec-
ord, the scratching noise sometimes
heard and the forcing of the needle
into a soft record, because the exten-
sion arm and reproducer are too heavy,
can be remedied in the following man-
ner: Attach a Small ring to the under
comes just as important as trimming
a print, and equally worthy of individ-
ual treatment. It is folly to give each
slide a mask opening of uniform size
and shape.
When many slides are to be masked,
it becomes tedious work to treat each
one separately, unless some special de-
vice is used. The accompanying draw-
ing shows a way to mark masks which
is simple, practical and costs nothing.
The drawing is exactly lantern slide
size.
Lay the slide over such a guide
and note the size of the opening best
suited to the picture. This will be de-
termined by the intersection of the side of the horn and use a rubber band
ruled lines, which are numbered for to lift the extending arm slightly. —
convenience in working. If the size Contributed by W. A. Jaquythe, Rich-
wanted is No. 4 for width and No. 2 mond, Cal.
d by Google
How to Make a Thennometer Back in Etched Coi^)er
Etching copper is not a very difficult
process. Secure a sheet of No. 16
gauge copper of the width and length
Copper Thermometar Holder
wanted for the back of the thermom-
eter. In the design shown the extreme
width is 3^ in. and the extreme length
r in.
Draw a aesign. The one shown is
merely suggestive. The worker may
change the outline or proportions as
desired. The decoration, too, may be
changed. The essential thing is to
keep a space upon which to place the
thermometer. This design is in what is
known as two-part symmetry. A line
is drawn down the paper and one-half
of the outline and decoration worked
out. This done, the paper is folded
along the center line, a piece of carbon
paper is inserted between the folds and
the design transferred on the inner
surfaces by tracing with a pencil over
the half of the outline previously
drawn. Trace the design and outline
upon the metal, using the carbon paper.
Cut out the outline with metal shears
and file the edges smooth.
With a small brush and ordinary
asphaltum or black varnish, paint the
design, the margin and the entire back
of the metal. When this coat has dried
put on a second and then a third. The
asphaltum is to keep the acid into
which the metal is to be immersed
later from eating any part of the metal
but the background. Two coats or
more are needed to withstand the ac-
tion of the acid.
The acid bath is composed of nitric
^cid and water, about half and half, or,
possibly, a little less acid than water,
the mixture being made by pouring the
acid into the water, not the water into
the acid, which is dangerous. Keep this
solution off the hands and clothes, and
do not inhale the fumes.
Put the asphalt-coated metal in the
bath and allow it to remain for four or
five hours, depending upon the thick-
ness of the metal and the strength of
the acid. With a stick, or a pair of old
tongs^ take the metal out of the acid
occasionally and examine it to see how
deep the acid has eaten it — g^ in. is
about right for the No. 16 gauge.
When etched to the desired depth,
remove the piece and with an old knife
scrape off the asphaltum. Finish the
cleaning by scrubbing with turpentine
and a brush having stijf bristles.
If the metal is first covered with
turpentine and then heated over a
flame, all the colors of the rainbow will
appear on its surface. These colors
fade away in the course of a long time,
but they can be easily revived. An-
other way to get these colors is to heat
the metal and then plunge it into the
acid bath quickly.
A green finish is obtained by paint-
ing the background with an acid stain
composed as follows : 1 part ammonia
muriate; 3 parts ammonia carbonate:
24 parts water. If one coat does not
give the depth of color desired, repeat
l:v v^JV^.'v.'VlV-
as many times as is necessary, allow-
'ing each coat time to dry before apply-
ing the next.
To "fix" this color so that it will not
rub off, and to keep the metal from tar-
nishing, apply a foat of banana oil or
lacquer.
Thermometers of suitable size can
be bought in either brass or nickel.
They have holes through their top and
bottom ends through which metal pa-
per fasteners can be inserted, and these
in turn put through holes punched in
the copper back.
wood and cut it round, about 2\^ in. in
diameter and Vi in. thick. Fig. 3, and
bore two holes, C and D, through it.
Then get two posts, about 1 in, long,
(battery posts will do) and put them
through the holes as in Fig. 4. Cut .
out a piece of tin, % in. wide, punch a
hole through it and put in under post
E, so that when it is pressed down, it
will touch post F. It may be either
nailed or screwed down.
Make two holes in the table for each
button and its wires, as at H, Fig, 2.
Nail or screw the buttons to the table.
How th« Electric
To Make an Electric Piano
Make or buy a table, about 3 ft. long
and 1 ft. or more wide, and about Z^
ft. high. Nail a board. A, Fig. 1, about
8 in. wide and of the same length as
the table, to the table, as shown in the
illustration. Paint the table any color
desired.
Purchase a dozen or so battery elec-
tric bells (they are cheaper if bought
by the dozen) and screw them to the
board, as in Fig. 2, Arrange the bells
in the scale shown at B, Fig. 3. Bore
two holes near the posts of each bell
for the wires to pass through.
Bntt<His for the bells may be pur-
chased, but it is cheaper to make them
in the following way : Take a piece of
■ Conitnictcd
as shown in Fig. 5, with the wires un-
derneath. The connections are simple:
I, Fig, 5, is a wire running from one
end of the table to the other end, at-
tached to a post at each end; J is an-
other wire attached in the same way ;
L is the carbon wire running from the
batteries to I ; M is the zinc wire run-
ning from the batteries to wire J ; O
indicates the batteries ; P is a wire run-
ning from J to one post of a button ; Q
is another wire running from the other
post of the button to one of the posts
of the bell ; R is a wire running from I
to one post of the bell. When the but-
ton S is pressed, the bell will 'ring.
Each button should be connected with
its bell in the same way. — Contributed
by Vincent de Ybarrondo.
joglc
Lnitatkm Arms and Anxux
PART III
Maces and battle-axes patterned after are somewhat difficult to make. After
and made in imitation of the ancient the glue is dry, remove all the surplus
weapons which were used from the thathasbeen pressed out from the joints
cX
I
fourteenth to the sixteenth century
produce fine ornaments for the hall or
den, says the English Mechanic. The
imitation articles are made of wood, the
steel parts represented by tinfoil stuck
on with glue and the ornaments carved
out with a carving tool.
An English mace used about the mid-
dle of the fifteenth century is shown in
Fig. 1. The entire length of this
weapon is about 24 in.; the handle is
round with a four-sided sharp spike ex-
tending out from the points of six tri-
angular shaped wings. Cut the handle
and spike from one piece of wood and
glue the wings on at equal distances
apart around the base of the spike.
The two bands or wings can be made
by gluing two pieces of rope around
the handle and fastening it with tacks.
These rings can be carved out, but they
with the point of a sharp knife blade
and then sandpaper the surface of the
wood to make it smooth. Secure some
tinfoil to cover the parts in imitation of
steel. A thin coat of glue is quickly
applied to the surface of the wood and
the tinfoil laid on evenly so there will
be no wrinkles and without making
any more seams than is necessary.
The entire weapon, handle and all, is
to appear as steel.
An engraved iron mace of the fif-
teenth century is shown in Fig. 2. This
weapon is about 22 in. long, mounted
with an eight-sided or octagonal head.
It will be easier to make this mace in
three pieces, the octagonal head in one
piece and the handle in two parts, so
that the circular shield shown at the
lower end of the handle can be easily
placed between the parts. The circu-
dbyGOOglC
lar piece or shield can be cut from a
piece of wood about ^ in. thick. The
circle is marked out with a compass.
A hoie is made through the center for
the dowel of the two handle parts when
they are put together, A wood peg
about 2 in. long serves as the dowel.
A hole is bored in the end of both
handle pieces and these holes well
coated with glue, the wood peg in-
serted in one of them, the shield put
on in place and handle parts put to-
gether and left for the glue to set. The
head is fastened on the end of the
hiindle with a dowel in the same man-
ner as putting the handle parts to-
gether.
The head must have a pattern
sketched upon each side in pencil
marks, such as ornamental scrolls,
leaves, flowers, etc. These ornaments
must be carved out to a depth of about
Vi in. with a sharp carving tool. If
such a tool is not at hand, or the
amateur cannot use it well, an excellent
substitute will be found in using a
sharp-pointed and red-hot poker, or
pieces of heavy wire heated to burn out
the pattern to the desired depth. The
handle also has a scroll to be engraved.
When the whc!e is finished and cleaned
and fimdy pressed into the engraved
. parts with the finger tips or thumb.
A French mace used in the sixteenth
century is shown in Fig. 3. This
weapon is about 2S in. long and has a
wood handle covered with dark red
cloth or velvet, the lower part to have
a gold or red silk cord wound around
it, as shown, the whole handle finished
off with small brass-headed nails. The
top has six ornamental carved wings
which are cut out, fastened on the
handle and covered with tinfoil, as de-
scribed in Fig. 2,
Figure 4 shows a Morning Star
which is about 36 in. long. The spiked
ball and the four-sided and sharp-
pointed spike are of steel. The ball
may be made of clay or wood and cov-
ered with tinfoil. The spikes are cut
out of wood, sharp-pointed and cone-
shaped, the base having a brad to stick
into the ball. The wood spikes are also
covered with tinfoil. The handle is of
steel imitation, covered in the middle
with red cloth or velvet and studded
with large-headed steel nails.
A war hammer of the fifteenth cen-
tury is shown in Fig. 6. Its length is
about 3 ft. The lower half of the
handle is wood, covered with red vel-
Bittla Aim o( tb* Fo armM h, Fittcanh and Slxteaalb CcmorUt
Up, it is covered with tinfoil in imita- vet, with a golden or yellow cord
tion of steel. The tinfoil should be wound spirally over the cloth. The
applied carefully, as before mentioned, upper half of the handle is steel, alsn.
iv^iOOglc
the hammer and spike. The entire
handle should be made of one piece,
t?ien the hammer pat on the base of
the spike. The spike made with a peg
in its lower end and well glued, can be
firmly placed in position by the peg fit-
ting in a hole made for its reception in
the top of the handle. Finish up the
steel parts with tinfoil.
The following described weapons
can be constructed of the same mate-
rials and built up in the same way as
described in the fof^oing articles: A
horseman's short-handled battle-axe,
used at the end of the fifteenth century,
is shown in Fig. 6. The handle is of
wood and the axe in imitation steel.
Figure 7 shows an English horseman's
battle-axe used at the beginning of the
rfiign of Queen Elizabeth. The handle
and axe both are to be shown in steel.
A German foot soldier's poleaxe used
at the end of the fourteenth century is
<;hown in Fig. 8. The handle is made
of dark wood and the axe covered with
tinfoil. Figure 9 shows an English
foot soldier's Jedburgh axe of the six-
teenth century. The handle is of wood,
studded with large brass or steel nails.
The axe is shown in steel. All of
these axes are about the-same length.
Playing Baseball with a Pocket Knife
An interesting game of baseball can
be played by two persons with a com-
mon pocket knife on a rainy day or in
upward movement of the forefinger it
is thrown into the air to fall and land
in one of the positions shown. The
plavs are determined by the position of
the" knife after the fall.
A foul ball is indicated by Fig. 2,
the knife resting on its back. The small
blade sticking in the board which holds
the handle in an upright position, as
shown in Fig. 3, calls for a home run.
Both blades sticking in the board (Fig.
4), a three-base hit. A two-base hit is
made when the large blade sticks in the
board, Fig. 5. A one-base bit is se-
cured when the large blade and the
end of the handle touch the board as
in Fig. 6, The knife falling on its side
(Fig. 7) calls for one out. Each person
plays until three outs have been made,
then the other plays, and so on for
nine innings. — Contributed by Herbert
Hahn, Chicago.
How to Remove Paper Stack to a
Negative
When making photographic prints
from a negative, sometimes a drop of
moisture will cause the print to stick
to the gelatine film on the glass. Re-
move as much of the paper as can be
readily torn ofiE and soak the negative
in a fresh hypo bath of 3 or 4 oz. hypo
to I pt. of water for an hour or two.
Then a little gentle rubbing with the
finger — not the finger nail — will remove
anything adhering to the film. It -may
Poildoiu of the Knife ladicatt the Plifi
the winter time when the regular game be found that the negative is not
cannot be played outdoors. The knife colored. If it is spotted at all, the nega-
is opened and loosely stuck into a tive must be washed for a few minutes
board, as in Fig. 1, and with a quick and placed in a combined toning and
l:v v^<v.^v_'Vl^_
fixing bath, which will remove the seconds, tarns to the audience with his
spots in a couple of hours. The n«ga- hands a few inches apart, showing that
tive must be well washed after going there is nothing between them, at the
through the solutions to take away any
trace of hypo.
Old-Time Magic
A Sack Trick
The magician appears accompanied
by his assistant. He has a sack similar
to a meal bag only on a large scale.
The upper end of this bag is shown in
Fig. 1, with the rope laced in the cloth.
He then selects several people from the
audience as a committee to examine
the sack to see that there is absolutely
no deception whatever in its makeup.
When they are satisfied that the bag or
sack is all right, the magician places his
assistant inside and drawing the bag
•round him he allows the committee to
tie him up with as many knots as they
choose to make, as shown in Fig, 8.
The bag with its occupant is placed
in a small cabinet which the committee
surround to see that there is no outside
help. The magician then takes his
watch and shows the audience that in
less than 30 seconds his assistant will
emerge from the cabinet with the sack
in his hand. This he does, the sack is
again examined and found to be the
same as when it was first seen.
The solution is when the assistant
enters the bag he pulls in about 15 in.
of the rope and holds it, as shown in
Fig. 3, while the committee is tying
him up. As soon as he is in the cabinet
he merely lets out the slack thus mak-
ing enough room for his body to pass
through. When he is out of the bag
he quickly unties the knots and then
steps from his cabinet — Contributed by
J. F. Campbell, Somerville, Mass.
Tbe Invteible Light
The magician places two common
wax candles on a table, one of them
burning brightly, the other without a
light Members of the audience are
allowed to inspect both the table and
the candles.
The magfcian walks over to the burn-
ing candle, shades the light for a few
Sack Trick— HoldlBC th* Kop« Isiid* tha Bu
same time saying that he has a light
between his hands, invisible to them
(tbe audience), with which he is going
to light the other candle. He then
walks over to the other candle, and, in
plain sight of the audience lights the
candle apparently with nothing.
In reality the magician has a very
fine wire in his hand which he is heat-
ing while he bends over the lighted
candle, and the audience gaze on and
see nothing. He turns to the other
candle and touches a grain of phos-
phorus that has been previously con-
cealed in the wick with the heated wire,
thus causing it to light.— Contributed
by C. Brown, New "^rk City.
Using the Sun's Light hi a Uigk
Lantern
The light furnished with a small
magic lantern does very well for even-
ing exhibitions, but the lantern can be
used in the daytime. with good results
by directing sunlight through the lens
instead of using the oil lamp.
A window facing the sun is selected
lOOglc
and the shade is drawn almost down,
the remaining space being covered by
3 piece of heavy paper. A small hole is
8mi'« ttaji Fan Thraafb IdntwB
cut in the paper and die lantern placed
on a table in front of the hole, the lamp
having been removed and the back
opened. The lantern must be arranged
so that the lens will be on a horizontal
line with the hole in the paper. A mir-
ror is then placed just outside of the
window and at such an angle that the
beam of light is thrown through the
hole in the paper and the lens of the
lantern.
The shades of the remaining win-
dows are then drawn and the lantern
is operated in the usual way. — Contriln
uted by L. B. Evans, Lebanon, Ky.
A Handy Drill Gauge
The accompanying sketch shows a
simple drill gauge which will be found
very handy for amateurs. The gauge
consists of a piece of hard wood, % in.
thick, with a width and length that will
be suitable for the size and number of
drills you have on hand. Drill a hole
through the wood with each drill you
have and place a screweye in one end
to be used as a hanger. When you
want to drill a hole for a pipe, bolt.
Drill Oanga
screw, etc., you take the gauge and find
what size drill must be used in drilling
the hole. — Contributed by Andrew G.
Thome, Louisville, Ky.
A good stove polish can be made by
mixing together 1 lb. of plumbago, 4
oz. of turpentine, 4 oz. of water and 1
oz. of sugar. Mix well and apply with
a cloth or brush.
A Home-Uade Daniell Cell
An effective Daniell galvanic cell
may be constructed from material cost-
ing very little money. A common tin
tomato can with a copper wire soldered
to the top forms the jar and positive
electrode. A piece of discarded stove
zinc rolled into an open cylinder of
about l^in. diameter, 5 in. long, with
a copper wire soldered at one end
forms the negative electrode.
To make the porous cell, roll a piece
of heavy brown wrapping paper, or
blotting paper, into a tube of several
thicknesses, about 5 in. long with an
internal diameter of 2 in. Tie the paper
firmly to prevent unrolling and close up
one end with plaster of pans ^ in.
thick. It is well to slightly choke the
tube to better retain the plaster. The
paper used must be unsized so that the
solutions can
mingle through
the pores.
Two liquids
are necessary for
the cell. Make a
strong solution
in a glass or
wooden vessel of
blue vitriol in
water. Dilute
some oil of vit-
riol (sulphuric
acid) with about
13 times its
measure of water
and keep in a bottle when not in use.
In making up the solution, add the acid
to the water with constant stirring.
Do not add water to the acid.
The cell is charged by placing the
zinc in the paper tube and both placed
into the tin can. Connect the two
wires and pour the dilute acid into
the porous cell around the zinc, and
then immediately turn the blue vitriol
solution into the can outside the paper
cup.
A current generates at once and
metallic copper begins to deposit on
the inside of the can. It is best to let
the action continue for a half hour or
so before putting the cell into use.
I:v v^<v.^v_'Vl^_
Several hours working will be required
before the film of copper becomes suf-
ficiently thick to protect the tin from
corrosion when the cell stands idle.
For this reason it will be necessary to
pour out the blue vitriol solution into
another receptacle immediately after
through using, as otherwise the tin
would be soon eaten full of holes. The
porous cup should always be emptied
after using to prevent the difltusion of
the blue vitriol solution into the cup,
and the paper tube must be well rinsed
before putting away to dry.
This makes one of the most satisfac-
tory battery cells on account of the
constancy of its current, running for
hours at a time without materially los-
ing strength, and the low cost of main-
tenance makes it especially adapted
for amateurs' use. Its current strength
is about one volt, but can be made up
into any required voltage in series. A
battery of a dozen cells should cost not
to exceed 50 cts. for the material,
which will give a strong, steady cur-
rent, amply sufficient for all ordinary
experimental work.
A strong solution of common salt
may be used in place of the oil of vit-
riol in the porous cup, but is not so
food. — Contributed by C. H. Dennis-
ton, Pulteney. N. Y.
A Home-Made Equatorial
ByHurrCUik
The ordinary equatorial is designed
and built for the latitude of the ob-
servatory where it is to be used. This
is necessary since the hour axis must
point to the north pole of the heavens
whose elevation above the horizon is
equal to the latitude of the observer's
station. The final adjustment of an
ordinary equatorial is very tedious so
that when once set up it is not to be
moved. This calls for a suitable house
to protect the instrument. It has been
the aim of the writer to fcuild a very
simple instrument for amateur work
which would be adjustable to any lati-
tude, so easily set up ready for work
and so portable that it need not be left
out of doors from one evening until
the next.
The instrument is mounted on a
tripod or piece of iron pipe carrying a
laitmmwit for Locmtlnf Stan
short vertical rod of %-in. steel. A
rectangular wooden frame with suit-
able bearings rotates about this shaft.
The frame has also two horizontal bear-
ings carrying a short shaft to the end
of which the frame carrying the hour
axis is firmly clamped. By this ar-
rangement of two perpendicular shafts
the hour axis may be directed to any
point in the heavens without care as to
how the tripod or pipe is set up.
The frame for the hour axis is about
13 in. long with a bearing at each end.
The shaft which it carries is ^-in. steel,
carrying the hour circle at one end, and
at the other the frame for the declina-
tion axis which is similar to the other,
but somewhat lighter. The declination
axis is also of ^-in. steel, carrying at
one end the declination circle and the
pointer at the other.
The entire frame of the instrument is
made of cherry and it will save the
builder much time if he will purchase
cherry "furniture" which is used by
printers and can be obtained from any
printers' supply company. It is best
quality wood free from imperfections in
straight strips one yard long and of a
lOOglc
uniform width of about % in. As to
thickness, any multiple of 18-point
(about ^ in.) may be obtained, thus
saving much work in fitting up joints.
Fifty cents will buy enough wood for
an entire instrument, Alt comers are
carefully mortised and braced with
small brass angle-pieces. The frame is
held together by small brass machine
screws. After much experimentation
with bearings, it was found best to
make them in halves as metal bearings
are usually made. The loose half is
held in place by guides on all four
sides and is tightened by two screws
with milled nuts. A great deal of
trouble was experienced in boring out
the bearings until the following method
was devised. One hole was bored as
well as possible. The bearing was
then loosened and a bit run through it
to bore the other. Finally, a piece of
shafting was roughened by rolling it on
a file; placed in both bearings and
turned with a brace. The bearings
were gradually tightened until perfect-
ly ground.
The declination axis must be per-
pendicular to both the hour axis and
the line of sight over the pointer. To
insure this, a positive adjustment was
provided. The end of the shaft is
clamped in a short block of wood by
means of a bearing like the ones de-
scribed. One end of the block is hinged
to the axis frame, while the other end
is attached by two screws, one drawing
them tc^ether, the other holding them
apart. The axis is adjusted by turning
these screws. Each shaft, save the one
in the pipe, is provided with this ad-
justment.
The pointer is of two very thin
strips placed at right angles am'
tapered slightly at each end. The
clamp is attached as shown in the illus-
tration. The eye piece is a black iron
washer supported on a small strip of
wood. The aperture should be ^ in.,
since the pupil of the eye dilates very
much in darkness. The error due to
large aperture is reduced by using a
very long pointer which also makes it
possible to focus the eye upon the front
sight and the star simultaneously. The
forward sight is a bright brass peg
illuminated by a tiny electric lamp with
a reflector to shield the eye. The
pointer arranged in this way is a great
improvement over the hollow tube
sometimes used, since it allows an un-
obstructed view of the heavens while
indicating the exact point in question.
The circles of the instrument are of
aluminum, attached to the shafts by
means of wooden clamps. They were
nicely graduated by a home-made
dividing engine of very simple con-
struction, and the figures were en-
graved with a pantograph. The read-
ing is indicated by a cut on a small
aluminum plate attached to a pointer.
The hour circle is divided into S4 parts
and subdivided to every four minutes.
The figures are arranged so that when
the instrument is set up, the number
of hours increases while the pointer
travels oppositely to the stars. The
declination circle is graduated from
zero to 90 deg. in each direction from
two points 180 deg. apart. It is ad-
justed to read zero when the pointer
and two axes are mutually perpendicu-
lar as shown in the picture.
To adjust the instrument it is set
up on the iron pipe and the pointer
directed to some distant object. All
set screws, excepting those on the dec-
lination axis, are tightened. Then the
pointer is carefully turned through 180
deg. and if it is not again directed to
the same point, it is not perpendicular
to the declination axis. When properly
set it will describe a great circle.
With the declination axis in an approxi-
mately horizontal position the place
where the pointer cuts the horizon is
noted. The declination axis is then
turned through 180 deg., when the
pointer should again cut at the same
place. Proper adjustment will cause it
to do so. It is desirable that the hour
circle should read approximately zero
when the declination axis is horizontal,
but this is not necessary for a reason
soon to be explained. All these ad-
justments, once carefully made, need
not be changed.
In using the instrument the hour
axis can be directed to the north pole
l:v v^JV.^v_'Vl^_
by the following method. Point it
approximately to the north star. The
pole is 1 deg. and 16 min. from the
star on a straight line from the star to
"Mizar," the star at the bend of the
handle in the Big Dipper. Turn the
hour circle into a position where the
pointer can describe a circle through
"Mizar." Only a rough setting is
necessary. Now turn the pointer so
that a reading of 88 deg. 45 min. shows
gn the declination circle on that side
of 90 which is toward "Mizar." When
this is done, clamp both axes and turn
the shafts in the base until the pointer
is directed accurately to the north star.
It is evident from a study of the picture
that the position of the small pointer
which indicates the reading on the
hour circle is not independent of the
way in which the tripod or pipe is set
up. It would then be useless to adjust
it carefully to zero when the pointer
cuts the "zenith" as is done with a
large equatorial. Instead, the adjust-
ment is made by setting the clock or
watch which is part of the outfit. The
pointer is directed to Alpha, Cas-
siopix, and the hour reading sub-
tracted from 24 hours (the approximate
right ascension of the star) gives the
time which the clock should be set to
indicate. All of these settings should
require not more than five minutes.
To find a star in the heavens, look
up its decliuation and tight ascension
in an atlas. Set the declination circle
to its reading. Subtract the clock time
from the right ascension (plus 24 if
necessary) and set the hour circle to
the result. The star will then be seen
on the tip of the pointer.
To locate a known star on the map,
turn the pointer to the star. Declina-
tion is read directly. Add the clock
time to the hour reading to get right
ascension. If the result is more than
24 hours, subtract S4.
A Ground Glass Substitute
Ordinary plain glass coated with the
following mixture will make a good
ground glass substitute: Dissolve 18
gr. of gum sandarac and 4 gr. of gum
mastic in 3^ dr. of ether, then add
1 2-3 dr. benzole. If this will be too
transparent, add a little more benzole,
taking care not to add too much. Cover
one side of a clear glass and after dry-
ing it will produce a perfect surface
for use as a ground glass in cameras. —
Contributed by Ray E. Strosnider,
Plain City, Ohio.
A Miniature War Dance
A piece of paper, 3 or 4 in. long, is
folded several times, as shown in the
sketch, and the first fold marked out
to represent one-half of an Indian. Cut
out all the folds at one time on the
dotted line and you will have as many
men joined together as there were
folds in the paper. Join the hands of
the two end men with a little paste so
as to form a circle of Indians holding
hands.
The next thing to do is to punch
holes in heavy cardboard that is large
enough to cover a pot or stew pan, and
Indiu W*i nance
partially fill the vessel with water. Set
this covered vessel over a heat and
bring the water to a boiling point and
then set the miniature Indians on the
perforated cover. The dance will be-
gin.
If the Indians are decked out with
smalt feathers to represent the head
gear and trailing plumes, a great effect
will be produced. — Contributed by
Maurice Baudier, New Orleans, La.
Turning the water on before starting
the gas engine may prevent breaking
a cylinder on a cold day.
dbyGOOglC
OLD-TIME MAGIC
RBm ovln g 36 Cannon Balls from a HandtMig
The magician produces a small
handbag and informs the audience that
he has it filled with 30-lb. cannon balls.
He opens up the bag and takes out a
ball which be passes to the auc^ience
for examination. The ball is found to
be the genuine article. He makes a
few passes with the wand and pro-
duces another ball, and so on until 36
of them lie on the floor.
In reality the first ball, which is the
one examined, is the real cannon ball,
the others are spiral-spherical springs
covered with black cloth (Fig. 1).
These balls can be pressed ti^ether in
flat disks and put in the bag. Fig. 2.
without taking up any great amount of
space. When the spring is released it
will fill out the black cloth to repre-
sent a cannon ball that cannot be dis-
tinguished from the real article. — Con-
tributed by J. F. Campbell, Somerville,
Mass.
A RlUDg Can) Trick
A rising card trick can be accom-
plished with very little skill by using
the simple device illustrated. Ilie only
things needed are four ordinary play-
ing cards and a short rubber band.
Pass one end of the rubber band
through one card and the other end
through the other card, as shown in
the illustration, drawing the cards
close together and fastening the ends
by putting a pin through them. The
remaining two cards are pasted to the
first two so as to conceal the pins and
ends of the rubber band.
Put the cards with the rubber band
in a pack of cards ; take any other card
from the pack and show it to the aud-
ience in such a way that you do not
see and know the card shown. Return
the card to the pack, but be sure and
place it between the cards tied to-
gether with the rubber band. Grasp
the pack between your thumb and fin-
ger tightly at first, and by gradually
loosening your hold the card pre-
viously shown to the audience will
slowly rise out of the pack,— Contrib-
uted by Tomi O'Kawara, San Fran-
cisco, Cal.
Box Cover Fastener
While traveling through the country
as a watchmaker I found it quite con-
venient to keep my small drills, taps,
small brooches, ^-^^^
etc., i n boxes C^^5^^s=
having a sliding g=
cover. To keep§
the contents^
from spilling or
getting mixed in my case I used a smal!
fastener as shown in the accompanying
illustration. The fastener is made of
steel or brass and fastened by means
of small screws or tacks on the out-
side of the box. A hole is drilled on
the upper part to receive the pin that
is driven into the sliding cover. This
pin should not stick out beyond the
thickness of the spring, which is bent
up at the point so the pin will freely
pass under it. The pin can be driven
through the cover to prevent it from
being pulled entirely out of the box. —
Contributed by Herm Grabemann, Mil-
waukee, Wis,
d by Google
How to Chain a Dog
A gw>d way to chain a dog and give collar is fastened to the ring. This
him plenty of ground for exercise is to method can also be used for tethering
stretch a clothesline or a galvanized a cow or horse, the advantage being
Tbc Doe Hm Plenty of I
wire between the house and barn on the use of a short tie rope eliminating
which is placed a ring large enough to the possibility of the animal becoming
slide freely. The chain from the dog's entangled.
Water-Color Box
There are many different trays
the market for the purpose of holding
water colors, but they are either too
expensive for the average person or
too small to be convenient. I do a
great deal of water-color work and
always felt the need of a suitable color
dish. At last I found something that
filled my want and suited my pocket-
book. I bought 22 individual salt
dishes and made a box to hold them,
as shown in the illustration. This box
has done good service.
Some of the advantages are : Each
color is in a separate dish which can
be easily taken out and cleaned ; the
dishes are deep enough to prevent spill-
ing the colors into the adjoining ones,
and the box can be made as big or as
small as individual needs require. The
tray containing the color dishes and
brushes rests on ^-in. round pieces
2^ in. from the bottom of the box,
thus giving ample store room for
colors, prints, slides and extra brushes.
Color Tray* Made of Salt Diihei
—Contributed by B. Beller, Hartford,
Connecticut.
CInk usually corrodes pens in a short
time. This can be prevented by plac-
ing pieces of steel pens or steel wire
in the ink, which will absorb the acid
and prevent it from corroding the pens.
I:v v^JV^.'v.'VlC
A Plant-Pood Percolator
Obtain two butter tubs and bore a
large number of ^-in. holes in the
bottom of one, then cover the perfor-
ated part
with a
piece of
nne brass
gauze
(Fig. 1).
tacking
the gauze
well at the
corn ers.
The other
n«.i tub should
be fitted
with a
faucet of
some kind
— a wood
faucet,
costing 5
cents, will
answer
the pur-
pose. Put
the first
tub on top
of the
other with
two nar-
row strips
bet ween
them
(Fig. 2).
Fill the
""■* upper tub,
about three-fourths full, with well
packed horse manure, and pour water
on it until it is well soaked. When
the water has percolated through into
the lower tub, it is ready to use on
house and garden plants and is better
than plain water, as it adds both fertil-
izer and moisture, — Contributed by
C. O. Darke, West Lynn, Mass.
Folding Quilting-Frames
The frame in which the material is
kept stretched when making a quilt is
usually too large to be put out of the
way conveniently when other duties
must be attended to ; and especially are
the end pieces objectionable. This
can be remedied by hinging the ends
so they will fold underneath to the
center. The end pieces are cut in two
at one-fourth their distance from each
end, a hinge screwed to the undei side
to hold them together, and a hook and
eye fastened on the other side to hold
the parts rigid when they are in use.
When the ends are turned under, the
frame is narrow enough to be easily
earned from one room to another, or
placed against a wall.
A Drip Shield for the Arms
When working with the hands in a
pan of water, oil or other fluid, it is
very disagreeable to have the liquid
run down the arms, when they are
raised from the pan, often to soil the
sleeves of a clean garment. A drip
shield which will stop the fluid and
cause it to run back into the pan can
be easily made from a piece of sheet
rubber or, if this is not available, from
a piece of the inner tube of a bicycle
tire. Cut a washer with the hole large
enough to fit snugly about the wrist,
but not so tight as to stop the circula-
CAIways caliper the work in a lathe
while it is standing still.
CNever use the ways of a lathe for an
anvil or storage platform.
tion of the blood. A pair of these
shields will always come in handy.—
Contributed by L. M. Eifel, Chicago.
oog Ic
How to Cane Chairs
There are but few households that
do not have at least one or two chairs
without a seat or back. The same
households may have some one who
would enjoy recaning the chairs if he
only knew how to do it, and also make
considerable pin money by repairing
chairs for the neighbors. If the fol-
lowing directions are carried out, new
cane seats and backs can easily be put
in chairs where they are broken or
sagged to an uncomfortable position.
The first thing necessary is to re-
move the old cane. This can be done
by turning the chair upside down and,
with the aid of a sharp knife or chisel,
cutting the cane between the holes.
After this is done the old bottom can be
pulled out. If plugs are found in any
of the holes, they should be knocked
out. If the beginner is in doubt about
finding which holes along any curved
sides should be used for the cane run-
ning nearly parallel to the edge, he may
find it to his advantage to mark the
holes on the under side of the frame
before removing the old cane.
The worker should be provided with
a small sample of the old cane. At
any first-class hardware store a bundle
of similar material may be secured.
The cane usually comes in lengths of
about 15 ft. and each bundle contains
rind, a square pointed wedge, as shown
in Fig. 1, and 8 or 10 round wood plugs,
which are used for temporarily hold-
ing the ends of the cane in the holes.
°ffOflff
o-*ir-Tr
u u u^
A bucket of water should be supplied
in which to soak the cane just before
weaving it. Several minutes before you
are ready to begin work, take four or
five strands of the cane, and, after hav-
ing doubled them up singly into con-
venient lengths and tied each one into
a single knot, put them into the water
to soak. The cane is much more pli-
able and is less liable to crack in bend-
ing when worked while wet. Af fast
as the soaked cane is used, more of it
should be put into the water.
Untie one of the strands which has
Tbrte 8U(c* of Wm*Iiis
enough to reseat several chairs. In been well soaked, put about 3 or 4 in.
addition to the cane, the worker should down through the hole at one end of
provide himself with a piece of bacon what is to be the outside strand of
Dgle
one side and secure it in this hole by
means of one of the small plugs men-
tioned. The plug should not be forced
in too hard nor cut off. as it must be re-
Ftnt Two LaycTi la PUca
moved again. The other end of the
strand should be made pointed and
passed down through the hole at the
opposite side, and, after having been
pulled tight, held there by inserting
another plug. Pass the end up through
the next hole, then across and down,
and hold while the second plug is
moved to the last hole through which
the cane was drawn. In the same man-
ner proceed across the chair bottom.
Whenever the end of one strand is
reached, it should be held by a plug,
and a new one started in the next hole
as in the beginning. No plugs should
be permanently removed until another
strand of cane is through the same hole
to hold the first strand in place. After
laying the strands across the seat in
one direction, put in another layer at
right angles and lying entirely above
the first layer. Both of these layers
when in place appear as shown in one
of the illustrations.
After completing the second layer,
stretch the third one, using the same
holes as for the first layer. This will
make three layers, the first being
hidden by the third while the second
layer is at right angles to and between
the first and third. No weaving has
been done up to this time, nothing but
stretching and threading the cane
through the holes. The cane will have
the appearance shown in Fig. 3. The
next thing to do is to start the cane
across in the same direction as the
second layer and begin the weaving.
The top or third layer strands should
be pushed toward the end from which
the weaving starts, so that the strand
being woven may be pushed down be-
tween the first and third layers and up
again between pairs. The two first
strands of the fourth layer are shown
woven in Fig. 3. During the weaving,
the strands should be lubricated with
the rind of bacon to make them pass
through with ease. Even with this
lubrication, one can seldom weave more
than half way across the seat with the
pointed end before finding it advisable
to pull the remainder of the strand
through. After finishing this fourth
layer of strands, it is quite probable
that each strand will be about midway
between its two neighbors instead of
lying close to its mate as desired, and
here is where the square and pointed
wedge is used. The wedge is driven
down between the proper strands to
move them into place.
Start at one corner and weave diag-
onally, as shown in Fig. 4, making sure
that the strand will slip in between the
two which form the corner of the square
in each case. One more weave across
on the diagonal and the seat will be
finished except for the binding, as
shown in Fig. 5. The binding consists
of one strand that covers the row of
holes while it is held down with an-
other strand, a loop over the first being
made every second or third hole as de-
sired. It will be of great assistance
to keep another chair with a cane
bottom at hand to examine while re-
caning the first chair. — Contributed by
M. R. W.
Repairing a Cracked Compontion
Developing Tray
Fill the crack with some powdered
rosin and heap it up on the outside.
Heat a soldering-iron or any piece of
metal enough to melt the rosin and let
it flow through the break. When cool,
trim off the surplus rosin. If handled
with a little care, a tray repaired in this
manner will last a long time. The
chemicals will not affect the rosin. —
Contributed by E. D, Patrick, Detroit,
Michigan.
izocbyClOOgIC
line AD, and the angle BAD is the
correct angle for the style for the given
Hem to hay Out a Sundial
The sundial is an instrument for of the line BC, or the style, is the base
measuring time by using the shadow of (5 in. in this case) times the tangent
the sun. They were quite common tn of the degree of latitude. Draw the
ancient times before clocks and watches " ' '^ ' " ' "
were invented. At the present time
they are used more as an ornamenta-
tion than as a means of measuring
time, although they are quite accurate
if properly constructed. There are
several different designs of sundials,
but the most common, and the one we
shall describe in this article, is the
horizontal dial. It consists of a flat
circular table, placed firmly on a solid
pedestal and having a triangular plate
of metal. Fig. 1, called the gnomon, ris-
ing from its center and inclined toward
the meridian line of the dial at an angle
equal to the latitude of the place where
the dial is to be used. The shadow of
the edge of the triangular plate moves
around the northern part of the dial
from morning to afternoon, and thus
supplies a rough measurement of the
hour of the day.
The style or gnomon, as it always
equals the latitude of the place, can be
laid out as follows: Draw a line AB,
Fig. 1, 6 in. long and at the one end
erect a perpendicular BC, the height
of which is taken from table No. 1. It
may be necessary to
interpolate for a
given latitude, as for
example, lat. 41°-30'.
From table No. 1 lat.
42° is 4.5 in. and for
lat. 40", the next
smallest, it is 4.2 in.
Their difference is .3
in. for 2°, and for 1°
it would be .15 in.
For SV it would be
% of 1"* or .075 in.
All added to the les-
ser or 40', we have
4.2 -I- .16 4- .075 in.=
4.42 in. as the height
of the line BC for lat.
41°-30'. If you have
a table of natural
functions, the height
Table /va/.
Height of stih imndtes^raSm.
base, for various lotifadas
/.atitude
Height
LahtudB
Height
Sg"
533
42°
450
26°
a^
44°
483
27°
455
46°
5/8
28°
2&6
48°
355
30°
289
50°
5S6
32°
3/2
52°
640
34°
337
34°
688
36°
363
56°
74/
38°
3ai
58°
SM
40°
420
60°
866
latitude. Its thickness, if of metal, may
be conveniently from J^ to % in. ; or if
of stone, an inch or two, or more, ac-
cording to the size of the dial. Usually
for neatness of appearance the back of
the style is hollowed as shown. The
upper edges which cast the shadows
must be sharp and straight, and for this
size* dial (10 in. in diameter) they
should be about 7^ in. long.
To lay out the hour circle, draw two
parallel lines AB and CD, Fig. 2, which
will represent the base in length and
thickness. Draw two semi-circles, us-
ing the points A and
C as centers, with a
radius of 5 in. The
points of intersection
with the lines AB and
CD will be the 12-
o'clock marks. A tine
EF drawn through
the points A and C,
and perpendicular to
the base or style, and
intersecting the semi-
circles, gives the 6-
o'clock |K)ints. The
point marked X is to
be used as the center
of the dial. The in-
termediate hour and
half-hour lines can be
plotted by using table
No. 2 for given lati-
lOog Ic
tudes, placing them to the right or left the correct time for longitude 75" New
of the IS-o'clock points. For latitudes York, 90° Chicago, 105" Denxer and
not given, interpolate in the same man- 180" for San Francisco. Ascertain in
ner as for the height of the style. The d^TMS of longitude how far your dial
is east or west of the
Table NaS. nearest standard me-
Chords intH€he$ for a Win. circle Svitefia/. ridian and divide this
by 16, reducing the
answer to minutes and
seconds, which will be
the correction in min-
utes and seconds of
time. If the dial is
east of the meridian
chosen, then the
watch is slower; if
west, it will be faster.
This correction can be
added to the values in
table No. 3, making
each value slower
when it is east of the
standard meridian
14-hour and the 5 and 10-minute divi- and faster when it is west
sions may be spaced with the eye or The style or gnomon with its base
they may be computed. can be made in cement and set on a
When placing the dial in position, cement pedestal which has sufficient
care must be taken to get it perfectly ba^e placed in the ground to make it
1
HOURS OF Day I
12-31
t
1-30
2
2-3C
3
S-X
A
4«
5
5-30
11-30
M
IO-3(
10
9-X
9
8-31
8
7-30
7
6-3(
s?
.28
.56
.87
f 19
(57
I.SS
Z49
3.((
397
4.82
593
30-
33
.66
1.02
140
(.82
230
2.95
3.49
4.26
5.(4
6.10
35"
.38
.76
t.l6
1.53
2.06
2.57
3(6
18(
455
537
6^3
MT
^2
.65
/.30
1.77
227
2.82
3.42
4.ffJ
4.79
5.55
632
/IS"
.46
.94
/42
(.93
246
3.03
3.64
4i9
4.97
5£B
639
50-
.50
\.0\
'.53
eo6
2.68
321
382
4.46
5(2
3.79
646
55*
54
1.08
(63
2(9
2.77
337
398
460
5«
5.87
«rf9
60-
SI
1.14
1.71
230
2.89
3^9
4.10
472
534
5.93
652
solid.
The design of the sundial is left to
the ingenuity of the maker. — Contrib-
uted by J. E. Mitchell, Sioox City,
Iowa.
T^te N0.3
level and have the style at right angl.
to the dial face, with its sloping side
pointing to the North Pole. An ordi-
nary compass, after allowing for the
declination, will enable one to set the
dial, or it may be set by placing it as - ^, -■.
near north and south as one may ^orraetiona m minutes to change
judge and comparing with a watch se^ ^rHoJ:'"maX'ri'sZt?^:^rfkctt
at standard time. The dial time and marked- from Sundial lime.
the watch time should agree after the
watch has been corrected for the equa-
tion of time from table No. 3, and for
the difference between standard and lo-
cal time, changing the position of the
dial until an agreement is reached.
Sun time and standard time agree only
four times a year, April 16, June 15,
Sent, t and Dec. 25, and on these dates
the dial needs no correction. The cor-
■"ections for the various days of the
month can be taken from Table 3. The
-f- means that the clock is faster, and
the — means that the dial is faster
than the suft. Still another correction
must be made which is constant for
each given locality. Standard time is
Day of month
1
10
20
30
January
-fS
-I-7
-HI
■H3
February
-H4
-t-14
-1-14
March
•H3
■HI
+a
+5
April
■VA
+e
-1
-3
May
-3
-4
-4.
-3
June
-3
-1
-n
-1-3
■July
-1-3
■l-S
-1-6
+ S
August
-I-6
+s
-1-3
+ 1
September
+
-3
-6
-10
October
-)0
-13
-15
-16
November
-(6
-16
-14
-11
December
-II
-7
-3
+ 2
uogic
Imitation Arms and Armor— Part IV
The ancient arms of defense as shown
in the accompanying illustrations make
good ornaments for the den if they are
cut from wood and finished in imitation
of the real weapon. The designs shown
represent original arms of the sixteenth
and seventeenth centuries. As they are
the genuine reproductions, each article
can be labelled with the name, adding
to each piece interest and value, says
the English Mechanic, London.
Each weapon is cut from wood. The
blades of the axes and the cutting edges
of the swords are dressed down and
finished with sandpaper and the steel
parts represented by covering the wood
with tinfoil. When putting on the tin-
foil, brush a thin coat of glue on the
part to be covered and quickly lay on
the foil. If a cutting edge is to be
covered the tinfoil on one side of the
blade must overlap the edge which is
pasted on the opposite side. The other
side is then covered with the tinfoil of a
size that wilt not quite cover to the cut-
ting edge. After laying the foil and
allowing time for the glue to dry, wipe
the surface with light strokes up and
down several times using a soft piece of
cloth.
for the entire length which is covered
with crimson cloth or velvet and
studded all over with round-headed
PudHa, Fork ud Halberd
A French partisan of the sixteenth
century is shown in Fig, 1, The
weap<Mi is 6^ ft. long with a round
badidle having the same circumference
A
r-A
Spentooa, OUivc and Vonlga
brass nails. The spear head is of steel
about 16 in. long from the point where
it is attached to the handle. The widest
part of the blade from spear to spear is
about S in. The length of the tasse)
or fringe is about 4 in.
Figure 2 shows a German military
fork of the sixteenth century, the length
of which is about 6 ft. with a handle
of wood bound with heavy cord in a
spiral form and the whole painted a
dark color. The entire length of the
fork from the handle to the points is
about 10 in., and is covered with tinfoil
in imitation of steel.
A Swiss halberd of the sixteenth
century is shown in Fig, 3. This com-
bination of an axe and spear is about
7 ft. long from the point of the spear
to the end of the handle, which is
square. The spear and axe is of steel
with a handle of plain dark wood. The
holes in the axe can be bored or burned
out with red-hot iron rods, the boles
being about % in. in diameter.
Figure 4 shows an Austrian officers*
spontoon, used about the seventeenth
century. It is about 6 ft. long with a
round wooden handle. The spear head
joogic
from its point to where fixed on the
handle is about 9 in. long. The edges
are sharp. The cross bar which runs
through the lower end of the spear can
BallMnl, RuiHur and Lane*
be made in two pieces and glued into a
hole on each side. The length of this
bar is about 5 in. The small circular
plate through which the bar is fixed can
be cut from a piece of cardboard and
glued on the wooden spear.
A gisarm or glaive, used by Italians
in the sixteenth century, is shown in
Fig. 5. The entire length is about 6*4
ft. The blade is engraved steel with a
length of metal work from the point of
the spear to where it joins the handle or
stafE of about 18 in. It has a round
wooden handle painted black or dark
brown. The engraved work must be
carved in the wood and when putting
the tinfoil on, press it well into the
carved depressions.
Figure 6 shows a Saxon voulge of the
sixteenth century, 6 ft. long, with a
round wood handle and a steel axe or
blade, sharp on the outer edge and held
to the handle by two steel bands, which
are a part of the axe. The bands can
be made of cardboard and glued on to
the wood axe. These bands can be
made very strong by reinforcing the
cardboard with a piece of canvas. A
small curved spear point is carved from
a piece of wood, covered with tinfoil
and fastened on the end of the handle
as shown. The band of metal on the
side is cut from cardboard, covered with
tinfoil and fastened on with round-
headed brass or steel nails.
A very handsome weapon is the Ger-
man halberd of the sixteenth century
which is shown in Fig. 7. The entire
length is about 6^ ft., with a round
wooden handle fitted at the lower end
with a steel ornament. The length of
the spear point to the lower end where
it joins on to the handle is 14 in. The
extreme width of the axe is IG or 17 in.
The outer and inner edges of the
crescent-shaped part of the axe are
sharp. This axe is cut out with a scroll
or keyhole saw and covered with tinfoil.
An Italian ranseur of the sixteenth
century is shown in Fig. 8. This
weapon is about 6 ft. long with a round
suff or handle. The entire length of
the metal part from the point of the
spear to where it joins the staff is 15
in. The spear is steel, sharp on the
outer edges.
Figure 9 shows a tilting lance with
vamplate used in tournaments in the
sixteenth century. The wood pole is
covered with cloth or painted a dark
color. At the end is a four-pronged
piece of steel. The vamplate can be
made of cardboard covered with tinfoil
to represent steel and studded with
brass nails. The extreme length is
9 ft.
The tassels or fringe used in decorat-
ing the handles can be made from a few
inches of worsted fringe, about 4 in.
long and wound around the handle or
staff twice and fastened with brass-
headed nails.
An Emergency Babbitt Ladle
Take an old stove leg and rivet a
handle on it and then break the piece
off which fastens
on the stove.
The large and
rounding part of
the leg makes the
bowl of the ladle.
This ladle will be
found convenient for melting babbitt
or lead. — Contributed by R. H, Work-
man, Loudonville, Ohio.
d by Google
How to Make J8^>anese Portieres
These very useful and ornamental
draperies can be easily made at home
by anyone possessing a little ingenuity.
They can be made of various materials,
the most durable being bamboo, al-
though beads of glass or rolled paper
will produce good results. Substances
such as straw, while readily adaptable
make a rough sketch of the design on
paper. This will greatly aid the maker
in carrying on the work.
When the main part of the screen is
finished, the cross cords, used for spac-
ing and binding the whole together,
are put in place. This is done with a
needle made from a piece of small wire,
Bamboo lod Sti*w Portieiet
and having a neat appearance, are less
durable and will quickly show wear.
The paper beads are easily made, as
shown in Figs. 1, 2 and 3. In Figs. 1
and 8 are shown how the paper is cut
tapering, and as it appears after rolling
and gluing down the ends. A straight
paper bead is shown in Fig. 3.
The first step is to select the kind of
beads desired for stringing and then
procure the hangfing cord. Be sure to
get a cord of such size that the beads
wilt slip on readily and yet have the
least possible lateral movement. This
is important to secure neatness. One
end of each cord is tied to a round piece
of wood, or in holes punched in a
leather strap. Iron or brass rings can
be used if desired.
Cut all the cords the same length,
making allowance for the number of
knots necessary to produce the design
selected. Some designs require only
one knot at the bottom. It is best to
as shown in Fig. 4. The cross cords
are woven in as shown in Fig. 5. As
many of these cross cords can be put in
as desired, and if placed from 6 to 12
in. apart, a solid screen will be made
instead of a portiere. The twisted
cross cords should be of such material,
and put through in such manner that
they will not be readily seen. If paper
beads are used they can be colored to
suit and hardened by varnishing.
The first design shown is for using
bamboo. The cords are knotted to hold
the bamboo pieces in place. The fin-
ished portiere will resemble drawn
work in cloth. Many beautiful hang-
ings can be easily fashioned.
The second design is to be con-
structed with a plain ground of either
straw, bamboo or rolled paper. The
cords are hung upon a round stick with
rings of metal to make the sliding
easy. The design is made by stringing
beads of colored glass at the right
places between the lengths of ground
material. One bead is placed at the
extreme end of each cord. The rows
of twisted cord placed at the top keep
the strings properly spaced. — Contrib-
uted by Geo. M. Harrer, Lockport,
New York.
Makeshift Camper's Lantern
While out camping, our only laiitern
was accidentally smashed beyond re-
pair, and it was necessary to devise
something that would take its place.
Laatcto Midi of Old Cau
We took an empty tomato can and
' cut out the tin, 3 in. wide, for a length
extending from a point 2 in. below the
top to within ^ in. of the bottom.
Each side of the cut-out A was bent
inward in the shape of a letter S, in
which was placed a piece of glass.
Four V-shaped notches were cut, as
shown at B, near the top of the can
and their points turned outward. A
slit was cut in the bottom, shaped as
shown at C, and the pointed ends thus
formed were turned up to make a place
for holding the base of a candle. A
larger can was secured and the bot-
tom perforated. This was turned over
the top of the other can. A heavy
wire was run through the perforations
and a short piece of broom handle used
to make a bail. — Contributed by Mau-
rice Baudier, New Orleans, La.
New Tires for Carpet-Sweeper Wheels
The rubber tires on carpet-sweeper
wheels often become so badly worn
and strttched that they fail to grip the
carpet firmly enough to run the
sweeper. To remedy this, procure
some rubber tape a little wider than
the rims of the old wheels, remove the
old rubber tires and wind the tape on
the rims to the proper thickness. Trim
the edges with a sharp knife and rub
on some chalk or soapstone powder to
prevent the tape from sticking to the
carpet. A sweeper treated in this man-
ner will work as well as a new one. —
Contributed by W. H. Shay, New-
burgh, N. Y.
Gauntlets on Gloves
When the fingers or palms of gloves
with gauntlets wear out, do not throw
away the gloves, but cut off the gaunt-
lets and procure a pair of gloves with
short wrists to which the old gaunt-
lets can be sewn after the wrist bands
have been removed from the new
gloves. The sewing may be done
either by hand or on a machine, gather-
ing in any fullness in the bellows of
the cu0 on the under side. A pair of
gauntlets will outwear three or four
pairs of gloves. — Contributed by
Joseph H. Sanford, Pasadena, Cal.
How to Make an Omameatal Brass
Flag
The outlines of the flag— which may
be of any size to suit the metal at
hand — and the name are first drawn
on a sheet of thin paper and then
transferred to the brass by tracing
through a sheet of carbon paper. The
brass should be somewhat larger than
the design.
The brass is fastened to a block of
soft wood with small nails driven
l:v v^<v.^v_'Vl^_
through the edges. Indent tbe name
and outline of the flag with a small
chisel with the face ground flat, about
A in, wide. This should be done
gradually, sinking the lines deeper and
deeper by going over them a number
of times. After this is finished, the
brass is loosened from the block, turned
over but not fastened, and the whole
outside of and between the letters is
indented with the rounded end of a
nail, giving the appearance of ham-
mered brass.
The edges are now cut off and four
holes drilled, two for the chain by
which to hang the flag to the wall, and
two along the side Tor attaching the
staff. The staff is a small brass rod
with a knob attached to the top end.
It would be well to polish the brass
at first, if the flnished work is to be
3 by 12-in. plank as long as the di-
ameter of the platform. This plank,
as shown in the small drawing at the
■■''.liU'ij-
Adioitibli PbttonD
upper left-hand corner of the sketch,
is placed in grooves or slots fastened
against the side of a wall. The plank
with the platform attached may be
raised or lowered to the desired height
and held there by a pin or bolt put
through the bolt-hole of the plank and
into a hole in the wall. — Contributed
by W. A. Jaquythe, Richmond, Cal.
The Finiriud Flag
bright, as it cannot be done after the
flag is completed. A coat of lacquer
is applied to keep it from tarnishing.
This is done by heating the brass and
quickly applying a coat of shellac. —
Contributed by Chas. Schaffner, May-
wood, 111.
An Adjustable Pimching-Bag Platform
A ponching-bag platform, suitable
for the tall athlete as well as the small
6oy, is shown in the accompanying
sketch. The platform is securely
fastened to two strong wooden arms
or, braces, which in turn are nailed to a
Clasp for Holding Flexible Lamp
Cords
A very easily made drop-tight ad-
juster is shown in the illustration. It
consists of a
lamp and socket with a glass shade,- -
E. K. Marshall, Oak Park, 111.
CCamel hair brushes for painters' «Ve
should never be allowed to come In
contact with water.
dbyGOOgIC
Hmne-Made Electric Clock
The clock illustrated herewith is
driven by means of electromagnets act-
ing directly on the pendulum bob. Un-
like most clocks, the pendulum swings
vided with a small brass spring tip.
These springs lie in the plane of the
pendulum, which serves to swing the
central tip first against one and then
against the other of the side tips, there-
by closing the circuit of first one mag-
net and then the other. Each magnet
atlracts the pendulum until its circuit
is broken by release of the center tip,
and on the return swing of the pen-
dulum the circuit of the other magnet
is similarly closed. Thus the pendulum
is kept in motion by the alternate mag-
netic impulses. The clock train is
taken from a standard clock and the
motion of the pendulum is imparted to
the escape wheel by means of a pawl,
bearing on the latter, which is lifted at
each forward stroke of the pendulum
by an arm projecting forward from the
pivotal end of the pendulum rod.
M*(netic Clock
forward and backward instead of later>
ally. The construction is very simple,
and the result is not only novel but well
worth while, because one does not have
to bother about winding a clock, such
as this one, says the Scientific Ameri-
can.
The clock is mounted on a wooden
base measuring 3% by 6^^ in., by 1^
in. thick. Secured centrally on this
base is a % by %-in. bar, 6 in. long and
at each ciHe of this, ^ in. away, is an
electromagnet, % in. in diameter and
lA in- high. Two uprights, 7^^ in.
high and ^ in. in diameter, are secured
in the base bar, and are connected at
the top by a brass yoke piece on which
the clock frame is supported. Just be-
low the yoke piece a hole is drilled in
each upright to receive the pivot pins
of the crosspiece secured to the upper
end of the pendulum rod. The pendu-
lum bob at the lower end is adjusted
to swing just clear of the electromag-
nets. Mounted at the right-hand side
of the base are three tall binding-posts,
the center one being 3% in. high, and
the other two S% in. high. Each is
fitted with a piece of copper wire pro-
Method of Joining Boards
The amateur wood-worker often has
trouble in joining two boards together
so that they will fit square and tight.
The accompanying sketch shows a sim-
ple and effective .-bm
method of doing
this. Secure a
board. A, about
12 in. wide that
is perfectly flat.
Fasten another board, B, about 6 in.
wide, to the first one with screws or
glue. Now place the board to be joined,
C, on the board B, letting it extend over
the inside edge about 1 in. and fasten-
ing it to the others with clamps at each
end. Lay the plane on its side and
plane the edge straight. Place the
second board in the clamps in the
same manner as the first, only have
the opposite side up. If the cutting
edge of the blade is not vertical, the
boards planed in this manner will fit
as shown in the upper sketch. In us-
ing this method, first-class joints can
be made without much trouble. — Con-
tributed by V. Metzech, Chicago.
Toy Gun for Tlu-owing Cardboard
Squares
Th« parts of the gun are attached to
a thin piece of wood 1 in. wide and 5
in, long. It is best to use a piece of
wood cut from the side or cover of a
cigar box. A rectangular hole -^ in.
wide and 1 in. long is cut in the wood
longitudinally along its axis and 1%
in. from one end, as shown at A, Fig.
1. A small notch is made with the
point of a knife blade at B and notches
are cut in the end of the wood as
shown at C. Rubber bands are fas-
tened in these notches as shown in Fig.
2. The trigger, whose dimensions are
given in Fig. 3, is fastened in the hole
A, Fig. 1, by driving a pin through the
wood. The assembled parts are shown
in Fig. 4.
Place the cardboard square in the
nick B, attach the rubber bands and
pull the trigger. The top rubber band
will fly off and drive the cardboard
A pocket is provided for the liquid
developer in one end of the tray when it
^^ ^^^^&^
Detail* of Toy Onn
square 76 ft. or more. The cardboard
should be about ^ in. square. These
can be cut from any old pasteboard
box. — Contributed by Elmer A. Van-
derslice, Phocnixville, Pa.
Photographic Devel(H>ing Tray
Plates developed in an ordinary tray
must be removed from the bath occa-
sionally for examination. The film
when in a chemical -soaked condition is
easily damaged. The tray illustrated
herewith was made for the purpose of
developing plates without having to
take hold of them until the bath had
completed its work, the examination
being made through the plate and the
bottom of the tray.
Darcloplar Tnr with Qtau D o muu
is turned up in a vertical position. A
tray for developing 5 by 7-in. plates
should be made 8 in. square inside.
The side pieces with the grooves for the
glass are shown in Fig. 1. Two of each
of these pieces are made with mitered
ends. The short groove shown in the
top piece of the illustration is for in-
serting the plate covering on the pocket
end of the tray.
Two blocks, one-half the length of
the side pieces, are put in between the
glass plates to hold the plate being
developed from dropping down when
the tray is tipped up in a vertical posi-
tion. The glass bottom of the tray is
8% in. square, which allows Vi in. on
all edges to set in the grooves of the
side pieces. The wood pieces should
be well soaked in hot paraffin, and the
mitered corners well glued and nailed.
— Contributed by J. A. Simonis, Fos-
toria, Ohio.
CA good filler used as a putty on iron
castings may be made as follows : Take,
by weight, 3 parts of stiff keg lead, 5
parts of black filler, 2 parts of whiting,
5 parts of pulverized silica and make
into a paste with a mixture of one part
each of coach japan, rubbing varnish
and turpentine.
dbyGOOgIC
Rubber Bands in Kite Balancing
Kite flyers will find it to their ad-
vantage to place rubber bands of suit-
in the opposite end of the box. This
reflects the rays of light passing
through the lens to the surface K.
which may be either of ground or
plain glass. The lid or cover E F pro-
tects the glass and keeps the strong
light out when sketching. The inside
of the box and brass tube are painted
a dull black.
In use, the device is set with the
lens tube directed toward the scene to
be painted or sketched and the lens
focused so the reflected picture will be
seen in sharp detail on the glass.
Select your colors and put them on
the respective colors depicted on the
glass. If you wish to make, a pencil
drawing, all you have to do is to BU
in the lines in the picture on the
ground glass. If a plain glass is used,
place tracing paper on its surface, and
the picture can be drawn as described.
Bandi In Strinc
able size in the balancing strings to the
kite, as shown in the illustration. This
will prevent a "break-away" and also
make the right pull, if only two bands
are put in the lower strings. — Contrib-
uted by Thos. DeLoof, Grand Rapids,
Michigan.
An Aid in Sketching
Sketching requires some little train-
ing, but with the apparatus here il-
lustrated an inexperienced person can
obtain ex-
How to Make Miniature Electric I<amp
Sockets
A socket for a miniature lamp can be
made as shown in the sketch. A brass
spring wire is wound around the base
of the threads on the lamp and an eye
turned on each end to receive a screw
and a binding-post, as shown in Fig.
1. A piece of metal, preferably copper,
is attached to a wood base as shown
in Fig, 2 and the coil-spring socket
fastened across it in the opposite direc-
tion. Bend the wire so that the spring
presses the lamp against the metal. If
the wire fits the lamp loosely, remove
the lamp and press the sides of the coil
closer together. The metal parts can
ble convex lens, G, is fitted in a brass
tube which should have a sliding fit
in another shorter and larger tube
fastened to the end of the box, A
mirror, H, is set at an angle of 45 dcg.
Win Socket
be attached to any smooth sunace of
wood without making a regular base.
— Contributed by Abner B. Shaw, No.
Dartmouth, Mass.
d by Google
foiitation Arms and Armor— Part V
The preceeding chapters gave de-
scriptions of making arms in imitation
of ancient weapons, and now the am-
ateur armorer must have some helmets
to add to his collection. There is no
limit to the size of the helmet, and it
may be made as a model or full sized.
In constructing helmets, a mass of clay
of any kind that is easily workable and
fairly stiff, is necessary, says the Eng-
lish Mechanic, London. It must be
kept moist and well kneaded. A large
The fleur-de-lis are slightly raised, as
in bas-relief. To aid in getting the
helmet in correct proportion on both
sides, and over the crest on top, cut
out the shape from a piece of wood,
as shown in Fig. 3, with a keyhole saw.
This wood being passed carefully and
firmly over the clay will bring it into
shape, and will also show where there
may be any deficiencies in the inodel-
ing, which can then be easily remedied
by adding more clay. The cut-out
Hakloc Uw CUr Uwlel and Three HdnMt Dnlciu
board or several planks, joined closely
together, on which to place the clay,
will be necessary. The size of this
board will depend on the size of the
work that is intended to be modeled
upon it.
The way to make a helmet is de-
scribed in the following method of pro-
ducing a German morion, shown in
Fig. 1. This helmet has fleur-de-lis in
embossed work, and on each side is a
badge of the civic regiment of the
city of Munich. The side view of the
helmet is shown in Fig. 1.
The clay is put on the board and
modeled into the shape shown in Fig.
2. This is done with the aid of a pair
of compasses, a few clay-modeling
tools, and the deft use of the fingers.
pattern shown in Fig. 4 is the side out-
line of the helmet
Scraps of thin, brown, wrapping
paper are put to soak in a basin of
water to which Eias been added about
a tablespoonful of size melted and
well stirred, or some thin glue, and
left over night to soak. The paper
should be torn in irregular shapes
about as large as the palm of the hand.
After the clay model is finished, give it
a thin coat of oi! — sweet or olive oil
will answer the purpose very well. All
being ready, the clay model oiled, and
the basin of soaked paper near to hand,
take up one piece of paper at a time
and very carefully place it upon the
model, pressing it well on the clay and
into and around any crevices and pat-
■'S''
era
terns, and continue until the clay is In Fig. € is shown an Italian casque
completely covered. of a foot soldier of the sixteenth cen-
This being done, give the paper a tuiy. This helmet may have the ap-
thin and even coating of glue, which pearance of being richly et^raved as
must be quite hot and put on as quickly shown in one-half of the drawing, or.
as possible. Put on a second layer of
paper as carefully as before, then an-
other coating of glue, and so on, until
there are from Hiur to six coats of
glue and paper. When dry, the paper
coating should be quite stout and
strong enough for the helmet to be
used for ornamental purposes. Before
taking it off the model, which should
be no difficult matter, owing to the
clay being oiled, trim off any ragged
edges of paper with a sharp knife, and
smooth and finish all over with some
fine sandpaper. The paper is then
given a thin coat of glue and sections
of tinfoil stuck on to give it a finished
appearance. When the helmet is off
the model, make holes with a small
awl at equal distances, through which
to insert some fancy brass nails, bend-
ing the points over and flat against the
inside of the helmet.
A vizor helmet is shown in Fig, 5.
This helmet has a movable vizor in the
front that can be lifted up, a crest on
top, and around the neck a narrow
gorget which rests upon the wearer's
shoulders. The whole helmet, with the
exception of the vizor, should be
modeled and made in one piece. The
vizor can then be made and put in place
with a brass-headed nail on each side.
The oblong slits in front of the vizor
must be carefully marked out with a
pencil and cut through with a knife or
chisel.
a few lines ntnnini^ down, as seen in
the other part of the sketch, will make
it look neat. The band is decorated
with brass studs.
An Italian cabasset of tbe sixteenth
century is shown in Fig. 7. This hel-
met is elaborately decorated with fancy
and round-headed nails, as shown in
the design.
In Fig. 8 is shown a lat^ bassinet
with a hinged vizor which comes very
much foru'ard, so as to allow the
wearer to breathe freely. This helmet
was worn about the sixteenth century,
and was probably used for tilting and
tournaments.
A burgonet skull-cap of the seven-
teenth century is shown in Fig. 9. The
vizor is composed of a single bar of
metal, square in shape, which slides up
and down in an iron socket attached
to the front of the helmet, and is held
in any position by a thumbscrew as
shown in the illustration.
A hole in the peak of the helmet
allows it to hang in front of the
wearer's face. This contrivance should
be made of wood, the helmet to be
modeled in three pieces, the skullcap,
peak and lobster shell neck guard in
one piece, and the ear guards in two
pieces, one for each side. The center
of the ear guards are perforated. All
of the helmets are made in the same
manner as described for Fig. 1. They
are all covered with tinfoil.
I:v v^<v.^v_'Vl^_
How to Repair Linoleum
A deep crack or fissure right in front
of the kitchen cabinet spoiled the ap-
pearance of the new linoleum. The
damaged spot was removed with a
sharp knife and from a left-over scrap
a piece was cut of the same outline
and size. The edges were varnished
and then the patch was set in the
open space. The linoleum was given
a good coat of varnish making it more
durable. When perfectly dry, the
piecing could not be detected, — Con-
tributed by Paul Keller, Indianapolis,
Indiana.
punched in their centers, AA, to re-
ceive screws for holding it to the base.
Two bolts are soldered in the holes E
and F, Fig. 1, and used to hold the
How to Make an Electric Stove
The parts necessary for making an
electric stove are: Two metal pie
plates of the same size ; 4 lb. of fire
clay ; two ordinary binding posts ;
about 1 lb. of mineral wool, or, if this
cannot be obtained, thick sheet asbes-
tos; one oblong piece of wood, 1 in.
thick, 12 in. wide and 15 in. long; one
small switch ; one fuse block ; about 80
ft. of No. 32 gauge resistance wire, —
Germ an -silver wire is better, as it
stands a higher.temperature; two mid-
dle-sized stove bolts with nuts; one
glass tube, about ^ in. in diameter
and 9 in. long, which can be bought
from a local druggist, and two large
3-in. screws.
If a neat appearance is desired, the
wood can be thoroughly sandpapered
on one side and the corners and edges
rounded off on the upper side. Punch
holes in one of the pie plates, as shown
in Fig. 1. The two holes, E and F, are
on the rim and should be exactly on a
line with the hole D punched in the
center. The holes B and C are about
3 in. apart and should be at equal dis-
tances from the center hole D. The
rim of the second plate is drilled to
make two holes, AA, Fig. 2, that will
match the holes E and F in the first
plate, Fig. 1. A round collar of gal-
vanized iron, FF, Fig. 4, 3 in. high, is
made with a diameter to receive the
first plate snugly. Two small flaps
are cut and turned oat and holes
rims of both plates together, when they
are placed in opposite positions, as
shown in Fig. 4. This will make an
open space between the plates. The
collar is then screwed to one end of
the base, as shown in Fig. 2.
Two holes are bored through the
base to correspond with the holes D
and A in the bottom plate. The glass
tube is cut to make two pieces, each
4^ in, long. This can be done easily
by filing a nick in the tube at the
proper point and breaking it. These
tubes are forced into the holes bored .
in the base, and, if the measurements
are correct, should extend about % in.
above the collar. The mineral wool,
JJ, Fig. 4, is then packed down inside
the collar, until it is within 1 in. of the
top. This will allow the plate. Fig. 1,
to rest oh the wool and the ends of
the glass tubes, GG, Fig. 4, to project
through the holes D and A of the plate,
Fig. 1. The rim of the plate should
be level with the top edge of the collar.
If asbestos is used, the sheets should
be cut into disks having the same
diameter as the inside of the collar, and
holes cut to coincide with the holes D
and A of the plate. The small scraps
should be dampened and made into
pulp to fill the space H, Fig. 4. The
plate. Fig. 1, is held to the base by two
lOOglc
screws which are run through the holes
BC and take the position shown by
DD, Fig. 4.
The two binding-posts are attached
on the base at D, Fig. 2, also the switch
B and the fuse block C, holes being
bored in the base to make the wire
connections. The reverse side of the
base, with slits cut for the wires, is
shown in Fig. 3. The points marked
BB are the glass tubes; AA, the holes
leading to the switch ; and C, the fuse
block. The wires run through the
glass tubes GG, Fig. 4, are allowed to
project about 1 in. for connections.
The best way to find the correct
length of the resistance wire is to take
a large clay or drain tile and wind the
wire tightly around it, allowing a
space between each turn. The tile is
then set on its side with a block or
brick under each end. It should not
be set on end, as the turns of the wires,
when heated, will slip and come in
contact with each other, causing a short
circuit. When the tile is in place, a
short piece of fuse wire is fastened to
each of its two ends. A 5-ampere fuse
wire is about strong enough. A con-
nection is made to these two wires
from an electric-light socket. The
wire will get hot but probably remain
the same color. If this is the case, one
of the feed wires is disconnected from
the fuse wire and gradually moved
farther down the coil until a point is
found where the resistance wire glows
a dull red. This point marks the
proper length to cut it, as the wire
should not be allowed to become any
hotter. If the wire gets bright hot
when the current is turned on, more
wire should be added. The wire is
then made into a long coil by winding
it around a large wire nail. The coils
should be open and about % in. apart.
Next, the fire clay is moistened and
well mixed, using care not to get it too
wet. It should have the proper con-
sistency to mould well. The clay, II,
Fig. 4, is then packed in the first plate
to a height of about Vi in. above the
rim. While the clay is damp, one end
of the coil is connected with the wire
in the central glass tube, and the coil
laid in a spiral winding on the damp
clay, KK, and pressed into it. When
this is done, the other end is connected
to the wire projecting from the outer
glass tube. As these connections can-
not be soldered, the ends of the wires
should be twisted closely together, so
that the circuit will not become broken.
Make sure that the coils of wire do
not touch each other or the top plate.
The fuse wire (about 5 amperes) is
put into the fuse block, and wires witli
a socket adapter connected to the two
binding-posts. The top plate is put in
place and screwed down. This com-
pletes the stove.
It should be set aSide in a warm
place for a few days to dry out the
packing. If it is not thoroughly dry,
steam will form when the current is
applied. It should not be left heated
in this condition. The top plate is
used when cooking and removed when
making toast. — Contributed by R, H.
Cnonyn, St, Catherines, Can,
How to Ibfake VSTdghts ibr Athletes
their own shots and weights for ath-
Many times boys would like to make letic stunts, but do not know how to go
■ *■ ' * about it to cast the metal. In making
a lead sphere as shown in the illustra-
tion, it is not necessary to know the
method of molding. The round lead
weight for shot-putting or hammer-
throwing can be cast in a hollow card-
board or pressed-paper ball, sold in
department and toy stores for 10 cents.
Cut a Va-in. hole in the ball as shown
in Fig. 1 and place it with the hole up
Ibid fen th* Lrad
l:v v^<v.^v_'Vl^_
in damp sand and press or tamp the
sand lightly around the ball as shows
in the section. Fig. 3. Cover over
about 1 in, deep. A wood plug in-
serted in the hole will prevent any sand
falling inside. When the sand is
tamped in and the plug removed, it
leaves a gate for the metal. Pour"
melted lead into the gate until it is
full, then, when cool, shake it out from
the sand and remove the charred paper.
A hie can be used to remove any rough
places. The dry paper ball prevents
any sputtering of the hot lead. — Con-
tributed by W. A, Jaquythe, Rich-
mond, Cal.
Removing Pies from Pans
Sometimes the juices from a hot pie
make it stick to the pan so tightly that
a knife blade must be run under to cut
it loose. If a knife with a flexible
blade is not used, the pie will be dam-
The prints should be placed face up
on the cloth, and the frame set near a
window. If the stretcher is made in
ScpmliBg Pit* Itma Fan*
aged. If the pie pans are provided
with the simple attachment shown in
the accompanying sketch, the baked
dough can be separated from the tin
with one revolution of the cutter. The
cutter is made from a piece of heavy
tin, bent to the same outline as the in-
side of the pan and pivoted at its
center.
Stretcher for Drying Pbot<^aph
Prints
A quick and convenient way to dry
prints is to place them on a cheese-
cloth stretcher. Such a stretcher can
be made on a light wood frame, con-
structed of %-in, square material in
Cloth on tlu FnUds
this way, the air can enter from both
top and bottom, and the prints will dry
rapidly. Several of these frames can
be stacked and a large number of
prints thus dried at the same time. —
Contributed by Andrew G. Thome,
Louisville, Ky.
A Temporary Funnel
The amateur photographer often has
some solution which he desires to put
into a bottle which his glass funnel
will not ht, says the Photographic
Times. The funnel made by rolling
up a piece of paper usually allows half
of the solution to run down the out-
side of the bottle, thereby causing the
amateur to be dubbed a "musser." A
better way is to take an ordinary en-
velope and cut it ofi as shown by the
dotted lines. Then clip a little off the
any size, but 12 by 24 in. is large point, open out, and you have a funnel
enough. The end pieces B are fast- that will not give any trouble. It is
ened on top of the long side pieces A, cheap and you can afford to throw it
and the cheesecloth C stretched and away when dirty, thereby saving time
tacked over them, as shown. and washtne;.
lOOglc
An Electric Engine
The parts of this engine are sup-
ported on a base % in. thick, 4 in. wide
and 7 in. long. The upright B, Fig. 1,
which is ^ in. thick and 3 in. high, is
secured across the base about one-third
of the distance from one end and fas-
tened with a wood screw put through
from the under side. The magnet
core C is made of a carriage bolt, 2^
in. long, which is fastened in a hole in
the top part of the upright B so that
the end C will protrude slightly. Be-
fore placing the bolt in the hole of the
upright, slip on two cardboard wash-
ers, each 1 in. in diameter, one at the
head end and the other against the
upright B. Wrap a thin piece of paper
around the bolt between the washers
and wind the space full of No. 22-
gauge magnet wire, allowing each end
to project for connections.
The driving arm D, Figs. 1 and 3, is
made of a piece of soft sheet iron, % in.
wide and 3 in. long. A small block is
fastened to the lower end of the metal
and pivoted between two uprights, V^
in. high, which are fastened to the
base. The uprights on each side of
the block are better shown in Fig. 3.
Two supports, each ^ in. thick and
3 in. high, are fastened with screws
about half way between the end of the
base and the upright B, Fig, t. The
end view of these supports is shown in
Fig. 2, at GG. A ^-in. hole is bored
through the top part of each support
so they will be in a line for the axle.
The axle is made of a piece of steel
% in. in diameter and about 4 in. long.
An offset is bent in the center, as
shown, for the crank. A small fly-
wheel is attached to one end of the
shaft. The connecting rod E, Fig, 1,
is made of wood and fastened to the
upper end of the driving arm D with a
small screw or nail. TTie contact F is
made of a strip of copper, ^ in. wide
This is to open and close the circuit
when the engine is running. The con-
nections are made as shown in Fig. 1.
Connect two dry cells to the bind-
ing-posts and turn the flywheel. The
current passing through the magnet
pulls the driving arm toward the bolt
head, which gives the shaft a half turn.
The turning of the shaft pulls the arm
away from the copper piece F, caus-
ing a break in the current. As the
shaft revolves, the arm is again
brought back against the copper strip
F, thus the current is broken and ap-
plied at each revolution of the shaft. —
Contributed by S. W. Herron, Le
Mars, Iowa.
Child's Home-Hadc Swing Seat
A very useful swing or seat for chil-
dren can be made from a box or pack-
ing case. Procure a box of the right
size and saw it out in the shape shown
in the illustration. The apron or board
in front slides on the two front ropes.
The board can be raised to place the
child in the box and to remove him.
The ropes are fastened to the box by
tying knots in their ends and driving
staples over them.
dbyGOOglC
Clay Flower Pots Used for Bird Houses
A novel use of the common garden
flower pot may be made by enlarging
[he small opening at the bottom with a
pair of pliers, and carefully breaking
the clay away until the opening is
large enough to admit a small bird.
Place the pot, bottom side up, on a
board, 3 in. wider than the diameter
of the largest pot used, and fasten it
to the board with wood cleats and
brass screws. Fit the cleats as close
as possible to the sides of the pot. One
or more pots may be used, as shown in
the sketch.
The board on which the pots are
fastened is nailed or screwed to a post
or pole 10 or 12 ft. in height. The
board is braced with lath or similar-
strips of wood, making a framework
suitable for a roost. In designing the
roost, the lath can be arranged to make
it quite attractive, or the braces may
be of twigs and branches of a tree to
make a rustic effect. — Contributed by
William F, Stecher, Dorchester, Mass.
Location of a Gas Meter
The gas meter should not be located
in a warm place or the gas will expand
before the meter measures it and the
gas bill will be proportionately in-
creased. Gas expands by about 1-491
part of its volume for each deg. F. that
it is heated. If the meter is warmed 10
deg. F., it will make the gas cost over
2 per cent more, without any corre-
sponding beneht.
How to Make Rope Grills
Beautiful and useful household orna-
ments, grills and gratings for doors,
windows, shelves, odd corners, etc.,
can be made by the following method
at a slight cost and by anyone pos-
sessing a little ingenuity. The mate-
rials required are rope or, preferably,
*:oramon window cord (called sash
cord) about A 'n. in diameter; ordi-
nary ghie, paraffin and paint or varnish.
A few strips of wood or molding are
very handy to use" around the edges.
The design must be considered first
and when one is selected, if it is other
than straight lines, adopt the method
described.
Take a smooth flat board and lay out
the design or designs which, when
combined, will produce the pattern
desired. Drive finishing nails at the
angle points or along curves as re-
quired. Coat the board along the lines
of the patterns with melted paraffin,
using an ordinary painter's brush to
prevent the ropes from sticking to the
boards after they are soaked in glue
and run around the nails.
Soak the sash cord in common glue
sizing for a short time, then bend or
twist it along or around the lines de-
sired, as shown in Fig. 1, and give it
time to dry. The bottom part of the
sketch. Fig. 1, shows a method' of
winding the rope on a round stick to
make circular objects. Wind the dc-
joglc
^y^Xi^yyyyvi
^m
nc.3— Dtalfas tat QtOU
sired number of turns and when dry,
cut and glue them together.
Pic. 1— W«U»d or PoimlnB tb* Bao*
In Fig. 2, six designs are shown.
TTiese suggest ideas in making up com-
binations or in plain figures and the
number is limited only by the ingenu-
ity of the designer.— Contributed by
Geo. M. Harrer, Lockport, N. Y.
A Simple and Effective I^ter
Procure an ordinary lamp chimney
and fit two or three thicknesses of
cheese-
cloth over
the end of it.
Press a tuft
of absorbent
cotton into
the small
part of the
neck to a
depth of
about 3 in.
Insert tiie
chimney in a
hole cut in a
wood shelf
used as a
support. Pour the water tn until the
filter is filled, when it will be observed
that any oi^nic matter, chips of iron
rust, etc., will be retained by tiie cotton.
The fine organic matter may penetrate
the cotton for about 1 in., but no
farther. The resultant filtered water
will be clear and pure.
OThe catting point of a tool should
"ever be below the centers.
Dgic
Imitaticffi Arms and Armor — Part VI
A mass of any kind of clay that is
easily modeled and fairly stiff must
be prepared and kept moist and well
kneaded for making the models over
which paper is formed to make the
shape of the articles illustrated in
these sketches. A modeling board
must be made of one large board or
several pieces joined closely together
upon which to work the clay, says the
English Mechanic, London. The size
of the board depends upon the size of
the work to be made.
torn in irregular shapes to the size of
the palm of the hand and put to soak
in a basin of water in which a table-
spoonful of size has been dissolved. If
size cannot be obtained from your lo-
cal painter, a weak solution of glue
win do equally well. All being ready,
and the clay model oiled, take up one
piece of paper at a time and very care-
fully place it on the surface of the
model, pressing it on well and into and
around any crevices and patterns. Con-
tinue this operation until the clay
AruMT uid Clir Moddi
An open chamfron of the fifteenth
century is shown in Fig, 1. This
piece of horse armor, which was used
in front of a horse's head, makes a
splendid center for a shield on which
are fixed the swords, etc., and is a
good piece for the amateur armorer to
try his hand on in the wav of modeling
in clay or papier mache work. The
opening for the animal to put his head
into is semicircular, and the sides do
not cover the jaws. As the main part
of this armor is worn in front of the
head the extreme depth is about i in.
The entire head piece must be modeled
in clay with the hands, after which it
is covered with a thin and even coating
of sweet or pure olive oil. A day be-
fore making the clay model some pieces
of thin, brown wrapping paper arc
model is completely covered on every
part. This being done, give the paper
a thin and even coating of glue, which
must be quite hot and laid on as
quickly as possible. Lay on a second
layer of paper as carefully as before,
then another coat of glue, and so on
until there are five or six coats of glue
and paper. When this is dry it will
be strong enough for all ornamental
purposes. The ragged edges of the
paper are trimmed off with a sharp
knife and the whole surface smoothed
with fine sandpaper. Then carefully
glue on sections of tinfoil to give the
armor the appearance of steel. The
armor is now removed from the model.
A mitten gauntlet of the fifteenth
century is shown in Fig, 8. This can
be made in one piece, with the ex-
lOOglc
ception of the thumb shield, which is
separate. The thumb shield is at-
tached to the thumb of an old glove
which is fastened with round headed
nails on the inside of the gauntlet.
Comiatad BreutpUta and Portnor
The part covering the wrist is a cir-
cular piece, but the back is not neces-
sary as it would not be seen when the
gauntlet is hanging in its place.
In Fig, 3 is shown a ^untlet of the
seventeenth century with separately
articulated fingers. This gauntlet may
be molded in one piece, except the
thumb and fingers, which must be made
separately and fastened with the thumb
shield to the leather glove that is at-
tached to the inside of the gauntlet,
the same as in Fig. 2.
A breastplate and tassets of the
sixteenth century are shown in Fig.
4. The tassets are separate and at-
tached to the front plate with straps
and buckles, as shown in the sketch.
There is a belt around the waist which
helps to hold the back plate on. At-
tached to the back of the plate would
be two short straps at the shoulder.
These are passed through the buckles
shown at the top right and left-hand
corners of the front plate. For decor-
ative purposes the back plate need not
be made, and therefore it is not de-
scribed. The method of making armor
is the same as of making helmets, but
as larger pieces are formed it is well
to use less clay owing to the bulk and
weight.
An arrangement is shown in Fig. 5
to reduce the amount of clay used.
This triangular-shaped support, which
can be made in any size, is placed on
the modeling board or bench and cov-
ered with clay. This will make the
model light and easy to move around,
and will require less clay. It is not
necessary to have smooth boards; the
rougher the better, as the surface will
hold the clay. The clay forms modeled
up ready to receive the patches
of brown paper on the surface are
shown in Figs. 6 and 7.
A German fluted armor used at the
beginning of the sixteenth century is
shown in Fig. 8. The breastplate and
tassets of this armor are supposed to
be in one piece, but for convenience in
making it will be found best to make
them separately and then glue them
together after they are taken from the
model. A narrow leather belt placed
around the armor will cover the joint
Fluted armor takes its name from a
series of corrugated grooves, % in. in
depth, running down the plate. A
piece of board, cut into the shape
shown in Fig. 9, will be very useful
for marking out the fluted lines.
Home-Made Hand Vise
A vise for holding small articles
while filing can be made as shown in
the illus-
wedge.
The hinge for connecting the two jaws
is made of four small screw eyes, two in
each jaw. When locating the place for
the screw eyes, place the two in one
jaw so they will fit between the two of
the other jaw. Put a nail through the
eyes when the jaws are matched to-
gether and they are ready for the wedge
in clamping the article to be filed. —
Contributed by John G. Buxton, Re-
dondo Beach, Calif,
d by Google
Detector for Slight Electrical Charges
A thin glass bottle is thoroughly
cleaned and Atted with a rubber stop-
per. A hole is made through the center
of the stopper large enough to admit a
small brass rod. ifhe length of this rod
will be governed by the shape of the
bottle, but 31^ in, will be about right.
, The bottom of the rod is bent and two
pieces of aluminum foil, each about y^
in. wide and ^/> in, long, are glued to it.
The two pieces of foil, fastened to the
rod, are better shown in Fig. 2. Fasten
a polished brass ball to the top of the
rod, and the instrument is ready for
use. Place the article which you wish
to test near the ball, and if it holds a
bored through it. Two or three wrap-
pings of fine copper wire may be
wound around the board on each side
slight electrical charge, the two pieces
of foil will draw together. If it does
not hold a charge, the foils will not
move. — Contributed by Ralph I- La
Rue, Goshen, N. Y.
Fishing through Ice with a Tip-Up
The tip-up, used for signaling the
fisherman when a fish is caught, is
made of a Vi,-vn, pine board, about 15
in. long, 2^ in. wide at one end and
narrowing down to about 1 in at
the other. At a point 6 in. from
the smaller end, the board should
be cut slightly wider and a Vj-in. hole
Tip-tip ia Place
nf the hole to give added strength.
Both ends of the board should be
notched deeply.
A long gash is cut in the ice and
then a round hole is made with a
chisel, as this will cut under the water
without splashing. The chipped ice
can be removed with a pail. A rod or
round stick of wood is passed through
the hole in the tip-up and placed
across the round hole, as shown in the
illustration.
The fishhook is baited in the usual
way and hung on a line from the short
end of the tip-up. When a fish is
hooked, the other end will tip up and
signal the fisherman. Any number of
holes can be cut in the ice and a tip-up
used in each, thus enabling one person
to take care of as many lines.
Home-Made Candle Holder
The candlestick or holder shown
in the illustration is made of an ordi-
nary tin can,
such as is used
for canning
salmon or pot-
ted ham. Three
triangular cuts
are made in
the cover or
bottom of the
can and the
points turned
up about the
candle. The
can may be —
bronzed, silvered, enameled or other-
wise decorated, thus making it orna-
mental as well as useful, — Contributed
by Mrs. A. M. Bryan, Corsicana.
Texas,
d by Google
How to Make a Match Holder of Wood and Metal
A very simple piece of art craft
work is easily made, as follows : Secure
a piece of paper and upon it draw the
outline and design, as indicated in the
<^
Y
c
i^^_
Mitch Holdei
accompanying sketch. The size may
be made to suit the taste of the worker.
A good size is 5 in. wide by 6 in, long
over all. The metal holder should be
proportioned to this size, as shown.
Having completed the drawing, take
a piece of thin wood, % or Vi in- thick,
and trace upon it the design and out-
line, using a piece of carbon paper. A
couple of thumb tacks should be ased
to fasten the paper and design in place.
Put the tacks in the lines of the de-
sign so that the holes will not show in
the finished piece. Any kind of wood
will do. Basswood or butternut, or
even pine, will do as well as the more
expensive woods.
Next prepare the metal holder. This
may be made of brass or copper and
need not be of very heavy gauge — No
22 is plenty heavy enough. The easiesi
way to get the shape of the metal is to
make a paper pattern of the develop-
ment TTie illustration shows how thisi
will look and the size of the parts for
the back dimensioned above. Trace
kh;s shape on the metal with the carbon
paper and cut it out by means of metal
shears. Polish the metal, using pow-
dered pumice and lye, then with a nail,
punch the holes, through which sn,all
round-head brass screws are to be
placed to hold the metal to the wood
back. Carefully bend the metal ta
shape by placing it on the edge of a
board and putting another board on
top and over the lower edge so as to
keep the bending true.
The wood back may be treated in
quite a variety of ways. If soft wood,
such as basswood or pine was used, it
may be treated by burning with the
pyrography outfit. If no outfit is at
hand a very satisfactory way is to take
a knife and cut a very small V-shaped
groove around the design and border so
as to keep the colors from "running."
Next stain the leaves of the conven-
tional plant with a little green wood
dye and with another dye stain the
petals of the flower red. Malachite and
mahogany are the colors to use. Rub a
coat of weathered oil stain over the
whole back and wipe dry with a cloth.
The green and red are barbarously bril-
liant when first put on, but by covering
them at the same time the background
is colored brown, they are "greyed" in
a most pleasing manner. When it has
dried over night, put a coat or two of
wax and polish over the wood as the
directions on the can suggest.
The metal holder may next be fas-
tened in place.
If one has some insight in carving,
the background might be lowered and
the plant modeled, the whole being fin-
ished in linseed oil. If carving is con-
templated, hard woods such as cheny
or mahogany should be used.
jOOgIc
Protecting the Fingers horn Chemicals
The linger nails and fingers may be
easily protected from stains of chem-
icals by coating them with a wax made
up as follows : Melt white wax in the
same manner as melting glue. This
may be done by cutting the wax into
small pieces, placing them in a vessel
and setting the vessel in boiling water.
To each ounce of melted wax thor-
oughly stir in 1 dr. of pure olive oil.
The fingers should be dipped into the
wax while it is in a liquid state. This
will form a coating that will permit
the free use of the fingers, yet pro-
tects the skin from the chemicals.
It is useful for photographers.
Combined Turning Rings and Swings
This trapeze, with rings for the large
boys and a swing for the smaller ones,
. can be made on the same standards.
Instead of the usual two short ropes,
tied and bolted through the top cross-
timber, bore two holes large enough
for the ropes to pass through easily.
Pass the rope along the crosspiece and
down the post and tie it to cleats nailed
at a height that can be easily reached.
At the ends of the crosspiece drive
two nails, allowing them to project 1
or 2 in. This will keep the rope from
slipping off when the rings and swing
are raised and lowered. All sharp
edges should be sandpapered to pre-
RlBg* and Swing
vent the rope from being cut A board
with notches cut in the ends will make
a good swing board which can be re-
moved instantly. — Contributed by W.
Pi. Jaquythe, Richmond, Cal.
Homemade Telegraph Key
A piece of wood, i^ in. thick, 2 in.
wide and 6 in. long, is used for the
base of this instrument. Two wire
Et7 uid CoantctioB*
nails, each 1 in. long, are used for
the cores of the magnets. Each nail
is wound with three or four layers of
fine insulated magnet wire, about No.
25 gauge, similar to that used in elec-
tric bells, leaving about ^4 in- of the
end bare so that they may be driven
into the wood base. The connections
for the coils are shown in the sketch,
at A.
About 1 in. behind the coils is fas-
tened a small block of wqod, the top
of which is just even with the top of
the nails in the coils. A piece of tin,
cut in the shape of the letter T, is
fastened with two screws to the top
of this block, and the end bent slightly
so as to clear the top of the nails about
A in.
The key lever is cut from a thin
piece of wood, in the shape shown in
the sketch, and pivoted in a slotted
block which is used as a base for the
key. A piece of bare copper wire is
fastened along the under side of the
key, as shown by the dotted lines. A
rubber band, passing over the end of
the key and attached to the base with
a tack, acts as a spring to keep the key
open. A small piece of tin is fastened
to the base under the knob of the key.
This is for making the contact between
the copper on the key and the wires
from the coils, when the key is pushed
down. — Contributed by W. H. Lynas.
OBtcycle trousers-guards make excel-
lent sleeve bands when the cuffs are
turned back and rolled above the
elbows.
.,:z:cbv^jOOglC
I
Imitation Arms and Armor— Part VII
The helmets, breastplates and gaunt- is placed on a square box covered with
tets described in parts V and VI can be red or green baize. The armor should
used in making up a complete model be supported by a light frame of wood
built up on the inside, says the Eng-
lish Mechanic, London. Two vertical
pieces are firmly attached to the box
so they will extend up inside the legs,
and at the top of them is attached a
crosspiece on which is placed a verti-
cal stick high enough to carry the hel-
met. The two lower pieces must be
built up and padded out with straw,
then covered with red cloth or baize
to represent the legs.
In making up the various pieces for
a full model it will be found very con-
venient to use rope, a stout cord or
strings in making up the patterns on
the parts. Instead of using brass-
headed nails, brass paper fasteners will
be found useful. These can be pur-
chased at a stationery store. Secure
the kind having a round brass head
from which hang two brass tongues.
These are pushed through a hole and
spread out flat on the opposite side.
Other materials can be used in the
place of tinfoil to represent steel. Sil-
ver paper will do very well, but if
either the tinfoil or silver paper are
found difficult to manipulate, go over
the armor with a coat of silver paint
put on with a brush. When dry give
the surface a coat of varnish.
for a full suit of armor of any size, as
shown in Fig. 1. All of the parts for
the armor have been described, except
that for the legs. Figure 2 shows how
the armor is modeled on the side of
the left leg. The clay is modeled as
described in previous chapters, the
paper covering put on, and the tinfoil
applied in imitation of steel. The chain
mail seen between and behind the tas-
sets is made by sewing small steel
rings on a piece of cloth as shown in
Fig. 3. These rings may be purchased
at a hardware store or harness shop.
The whole figure when completed
A Home-Made Tripod Holder
An inexpensive tripod holder, one
that will prevent the tripod from slip-
ping on a smooth floor, and prevent
the points from doing damage to the
polished surface or puncturing an ex-
pen-sive rug or carpet, can be made in
a few minutes' time, says Camera
Craft.
Secure two strips of wood, or ordi-
nary plaster laths will do, and plane
them down to a thickness of 3/16 in.,
for the sake of lightness. Cut them to
a length oi 40 in. and round off the
ends to improve their appearance.
Take the piece shown in Fig. 1 and
i:v v^n.^v_'viv_
drill a H-in. hole in the center, and small caster under each of the three
eight small holes, 1 in. apart, at each series of small holes, makes an excel-
end. In one end of the piece. Fig, 2,
make the same series of eight small
holes and, in the other end, drill six
14-tn' holes, 3 in. apart. A ^-in. flat-
headed carriage bolt, about 1 in. long,
completes the equipment
The two pieces are bolted together,
not too tight, and the points of the
tripod legs inserted in their respective
small holes. So set up, there is abso-
lutely no danger of one of the legs
slipping out of position. By moving
the position of the bolt from one to
another of the larger holes in the strip,
Fig. 2, almost any desired inclination
of the camera can be secured.
The same sort of simple apparatus
built slightly stronger, and with a
Tba Tiipod CaODM Sli^
lent tripod clamp for use when the
camera has to be shifted about, as in
portraiture and the like.
How to Weave a Shoestring Watch Fob
Having procured a pair of ordinary
shoestrings, take both ends of one of
them and force the ends through the
middle of the other, leaving a loop 1^
in. long, as shown in Fig. S. In this
sketch, A is the first string and B is
the second, doubled and run through
the web of A. Take hold of the loop
and turn it as shown in Fig. 2, allow-
ing the four ends to hang in four di-
rections. Start with one end, the one
marked A, in Fig. 1, for instance, and
lay it over the one to the right. Then
take B and lay it over A, and the one
beneath C ; lay C over B and the one
under D, and then lay D over C and
stick the end under A. Then draw all
four ends up snugly. Commence the
next layer by laying the end A back
over B and D ; D over A and C ; C
over D and B, then B over C and the
end stuck under A. Proceed in the
same manner and keep on until about
1% in. of the ends remain unwoven.
Four pins stuck through each corner
and into the layers will hold the ends
from coming apart. The ends of the
strings are raveled out so as to make a
tassel. This will make a square fob
which will appear as shown in Fig. 4
A round fob is made in a similar
way, taking the same start as for the
square fob, but instead of reversing
p«,i mk ^-fcs
Fob* Had* from SboMtriBCi
the ends of each alternate layer, al-
ways lap one string, as at A in Fig. 3,
over the one to its right, as B, slipping
z: Iv^lOOglC
the last end of the four strings under
and tightening all, as in making the
square fob. Fasten the ends with pins
and ravel out for a tassel. The round
fob is shown in Fig. 5.
A fob in the shape of a horseshoe
can be made by taking four shoestrings
and tying a small string around the
middle of them, then weaving the lay-
ers both ways from the point where
the strings are tied, A loop, 1% '"■
long, is left out at the center before
starting on one side. The loop is for
attaching the fob to the watch. After
the weaving is complete and the tassel
ends made, a small stiff wire is forced
through the center to form the shape
of a horseshoe.
Other designs can be made In the
same manner. Strings of different
colors will make up a very pretty fob,
especially if silk strings are used. — Con-
tributed by John P. Rupp, Monroe-
ville, Ohio.
How to Make a Table Mat of leather
The table mat, the design of which
is shown herewith, is to be made of
leather. It may be made of Russian
calf and the background modeled down
side, outline the design by means of
a pyrographer's outfit. This manner
of treating leather is so common that
it needs no description.
A third method is to secure a piece
of sheep or goat skin, trace the de-
sign on the reverse side by means of
carbon paper, and put the outline and
design in with brush and stains such as
are sold for this purpose.
The accompanying pattern shows
but one-fourth of the mat. Draw the
one-fourth on paper to the size desired
and then fold on lines A and B, tracing
this one-fourth on the other parts by
the insertion of double-surfaced carbon
paper.
On the calfskin the pattern is to be
held on the leather and the tool worked
over the pattern to get the outline
transferred. After this the pattern is
to be removed and the leather modeled.
Pmutb for the Tabla Hat
as has been described in several previ-
ous articles dealing with leather work.
To do this the leather is moistened
on the back side just enough to make
the leather take the impression of the
tool, but not enough to make the mois-
ture show through on the face. Any
smooth piece of steel, such as a nut
pick, that will not cut or scratch the
leather and will make a V-shaped de-
pression will do.
A second method is to secure a piece
of sheepskin and, using the
Sad Iron Polisher
A small amount of wax is necessary
on an iron for successful work. Ths
wax is usually applied by hand to the
heated sur-
face of the
iron. A
much better
and handier
way is
bore five or
six holes in
one end of
the ironing board to a depth of hall
ly v^<v.^v_'viv_
its thickness, filling them with wax,
beeswax or paraffin, and covering
them over with two thicknesses of
muslin.
The rubbing of the hot iron over
this cloth absorbs just enough of the
wax to make the iron work smoothly.
When the supply of wax is exhausted,
it can be easily renewed, — Contribut-
ed by A. A. Houghton, Northville,
Mich.
Making Coins Stick to Wood by
Vacuum
Take a quarter and place it flat
against a vertical surface of wood such
as the side of a book-
case, door facing or
door panel, and strike
it hard with a down-
ward sliding motion,
pressing it against
the wood. Take the
hand away and the
coin will remain on
the woodwork. The
striking and pressure
expel the air be-
tween the quarter and the wood, thus
forming a vacuum sufficient to hold
the coin.
Simple and Safe He^iod for Sending
Coins by Mail
Sending coins by mail is not as a
rule advisable, but sometimes it be-
comes necessary, and usually a regular
coin mailer is not available. A very
simple and secure way to wrap a coin
or coins for mailing is as follows ; Pro-
cure a piece of heavy paper, nearly as
wide as the envelope is long, and about
12 in. long. Fold on the dotted lines
shown by A and B in the sketch, and
slip the coin in the pocket thus formed.
Fold together on lines C, D, E and F,
making the last two folds wide enough
to fit snugly in the envelope. This
method holds the coin in the center of
the envelope where it cannot work
around and cut through the edges.^
Contributed by O. J. Thompson, Pe-
tersburg, m.
Mounting Photographs in Plaster Plaques
Purchase a few pounds of plaster of
paris from your local druggist and se-
lect a dish of the desired shape in which
to make your cast. The size of the
dish will depend on the size of the
print to be mounted. Select the print
you wish to mount, those on matte pa-
per will work best, and after wetting,
place it face down in the dish, press
into place and remove all drops of
water with a soft cloth. Be sure and
have the print in the center of the dish.
Earthen dishes will be found more
Convenient, althot^h tin ones can be
used with good success, says Photo-
graphic Times.
Mix some of the plaster in clear
water so it will be a little thick.
Enough plaster should be mixed to
cover the bottom of the dish about !^
in. thick. Pour the plaster into the
dish over the print and allow to stand
until it becomes quite hard. The cast
can then be removed and the print
should be fast to it. If the print or
plaster is inclined to stick, take a knife
and gently pry around the edges and
it can be removed without breaking.
Prints of any size may be used by
having the mold or dish large enough
to leave a good margin. This is a very
important point as it is the margin that
adds richness to all prints. Platinum
or blueprint papers work well, but any
kind that will not stick may be used.
After the plaster has thoroughly dried,
any tint may be worked on the margin
by the use of water colors; if blueprints
are used, it is best to leave a plain white
margin.
Iron Rest for an Ironing Board
A flatiron rest can be made on an
ironing-board by driving a number of
lai^e tacks
into one end
of the board.
The tacks
should be
about 1 in,
apart and
driven in
only part
way, leaving
about V^ in- remaining above the sur-
face of the board. The hot iron will
not burn the wood and it cannot slip
off the tacks. This iron rest is always
with the board and ready when wanted.
—Contributed by Beatrice Oliver, New
York, N. Y.
Instantaneous Crystallization
Dissolve 150 parts of hyposulphite
of soda in 15 parts of water and pour
the solution slowly into a test tube
which has been warmed in boiling
water, filling the
same about one-
half full. Dis-
solve in another
glass 100 parts
of acetate of
soda in 15 parts
of boiling water.
Pour this solu-
tion slowly on
top of the first in
such a way that
it forms an up-
per layer, with-
out mixing the
solutions. The two solutions are then
covered over with a thin layer of boil-
ing water and allowed to cool.
Lower into the test tube a wire, at
the extremity of which is fixed a small
crystal of hyposulphite of soda. The
crystal traverses the solution of acetate
without causing trouble, but crystalli-
zation will immcdiaely set in as soon
as it touches the lower hyposulphite of
soda solution, as shown at the left in
the sketch.
When the hyposulphite of soda solu-
tion becomes crystallized, lower in the
upper solution a crystal of acetate of
soda suspended by another wire, as
shown in the right of the sketch, and
this will crystallize the same as the
other solution.
Decoloration of Flowers by Fumes of
Sulphur
Dissolve some sulphur in a small
dish which will inflame by contact with
air thus forming
sulphuric acid
fumes. Cover
the dish with a
conical chimney
made of tin and
expose to the up-
per opening the
flowers that are
to be decolored.
The action is
very rapid and
in a short time myrtle, violets, bell
flowers, roses, etc., will be rendered
perfectly white.
How to Preserve Egg Shells
Many naturalists experience diffi-
culty in preserving valuable egg shells.
One of the most effective ways of pre-
serving them is as follows: After the
egg is blown, melt common beeswax
and force it into the shell with a dis-
carded fountain pen filler. Set in a
cool place until the wax hardens. The
most delicate shells treated in this man-
ner can be handled without fear of
breaking, and the transparency of the
wax will not alter the color, shading,
or delicate tints of the egg. — Contrib-
uted by L. L. Shabino, Millstown,
South Dakota.
d by Google
Homemade Phonograph
Make a box large enough to hold
four dry cells and use it as a base to
mount the motor on and to support the
revolving cylinder. Anyone of the
various battery motors may be used to
supply the power. The support for the
cylinder is first made and located on
the cover of the box in such a position
that it will give ample room for the
motor. The motor base and the sup-
port are fastened by screws turned up
through the cover or top of the box.
The location of these parts is shown in
Fig. 1.
The core for holding the cylindrical
wax records is i% in. long and made
of wood, turned a little tapering, the
'diameter at the small or outer end be-
ing 1% in., and at the larger end, 1%
in. A wood wheel with a V-shaped
groove on its edge is nailed to the
larger end of the cylinder. The hole
in the core is fitted with a brass tube,
driven in tightly to serve as a bearing.
A rod that will fit the brass tube, not
too tightly, but which will not wabble
loose, is threaded and turned into the
upper end of the support. The core
with its attached driving wheel is
shown in Fig. 3. The dotted lines show
the brass bearing and rod axle. The
end of the axle should be provided with
a thread over which a washer and nut
are placed, to keep the core from com-
ing off in turning.
The sound box. Fig. 2, is about 2',4
in. in diameter and 1 in. thick, made of
heavy tin. The diaphragm, which
should be of thin ferrotype tin, should
be soldered to the box. The needle is
made of a piece of sewing needle, about
% in. long, and soldered to the center
of the diaphragm. The first point
should be ground blunt, as shown in
the sketch. When soldering these
parts together, take care to have the
diaphragm lie perfectly flat and not
made warping by any pressure applied
while the solder is cooling.
The tin horn can be easily made, at-
tached to the sound box with a piece of
rubber hose and held so it will swing
the length of the record by a rod at-
tached to the top of the box, as shown.
The motor can be controlled by a small
three or four-point battery rheostat. —
^^.
Phonogripb and Coottructioa of Putt
Contributed by Herbert Hahn, Chi-
cago, III.
A Substitute for a Compass
An easy way to make a pencil com-
pass when one is not at hand, is to take
a knife with two blades at one end,
open one to the full extent and the
other only halfway. Stick the point
end of the fully open blade into the
side of a lead pencil and use the half-
open blade as the center leg of the
compass. Turn with the knife handle
to make the circle. — Contributed by
E. E. Gold, Jr., Victor, Colo.
joglc
A Novel Rat Trap
A boy, while playing in the yard close
to a grain house, dug a hole and buried
an old-fashioned fruit jug or jar that
his mother
had thrown
away, says
the Iowa
I? H o mestead.
I The top part
P of the jug
f. was left un-
I covered a s
I shown in the
i sketch, and
^ a hole was
i> broken in
it just above
the ground.
The boy then placed some shelled corn
in the bottom, put a board on top, and
weighted it with a heavy stone.
The jug had been forgotten for sev-
eral days when a farmer found it, and,
wondering what it was, he raised the
board and found nine full-grown rats
and four mice in the bottom. The
trap has been in use for some time and
is opened every day or two and never
fails to have from one to six rats or
mice in it.
anyone who has ever tried to crack but-
ternuts it needs no further recommen-
dation. The device is nothing more
than a good block of hardwood with a
few holes bored in it to fit the different
sized nuts. There is no need of holding
the nut with the fingers, and as hard
a blow may be struck as desired. Make
the depth of the hole two-thirds the
height of the nut and the broken pieces
will not scatter. — Contributed by Al-
bert O'Brien, Buffalo, N. Y.
A Jelly-Making Stand
Every housewife who makes jelly is
only too well acquainted with the in-
convenience and danger of upsets when
using the old method of balancing a
A Nut-Cracking Block
In the sketch herewith is shown an
appliance for cracking nuts which will
prevent many a bruised thumb. To
HolM in Block for Nnta
ChcMCcloth Btnian on SUdd
jellybag on a couple of chairs stood on
the kitchen table, with the additional
inconvenience of having a couple of
chairs on the kitchen table out of com-
mission for such a length of time.
The accompanying sketch shows
how a stand can be madn from a few
pieces of boards that vi .il help jelly
makers and prevent the old-time dan-
gers and disadvantages. The stand can
be stood in the comer of the kitchen, or
under tli kitchen table where it will
be out of danger of being upset. — Con-
tributed by Lyndwode, Pereira, Ot-
tawa, Can.
d by Google
How to Make an Egg-Beater
There is no reason why any cook or
housewife should be without this egg-
beater, as it can be made quickly in
any size. All. that is needed is an ordi-
nary can with a tight-fitting cover — a
baking-powder can will do. Cut a
round piece of wood 3 in. longer than
the length of the can. Cut a neat hole
in the cover of the can to allow the
stick to pass through, and at one end
of the stick fasten, by means of a flat-
headed tack, a piece of tin, cut round,
through which several holes have been
punched. Secure another piece of
heavier tin of the same size, and make
pin is carried on a piece of wood ex-
tending the full len^ of the box and
Mada Lika a Cburn
Wheals Paitaoed to thi Box
supported by crosspieces nailed to the
ends, as shown. — Contributed by Thos.
De Loof, Grand Rapids, Mich.
An Illuminated Target
My youthful nephews some time ago
were presented with an air rifle and it
worked so well that it became neces-
sary for me to construct a target tiiat
would allow the fun to be carried on
at night.
I reversed a door gong, screwed tt on
the inside of a store box, and fitted two
candles on the inside to illuminate the
bullseye. The candles, of course, were
below the level of the bullseye. The
position of the candles and gong are
shown in Fig. 1. At night the illumi-
nated interior of the bell could be
a hole in the center to pass the stick
through. Put a small nail 2 in. above
the end of the dasher, which allows the
second tin to pass up and down in the
opposite direction to the dasher. This
beater will do the work in less time
than the regular kitchen utensil. — Con-
tributed by W. A. Jaquythe, Rich-
mond, Cal.
Cart Without an Axle
The boy who has a couple of cart
wheels is not always lucky enough to
have an axle of the proper length to
fit the wheels. In such a case the cart
can be constructed as shown in the il-
lustration. This cart has no axle, each
wheel being attached with a short pin
for an axle, on the side and at the lower
edge of the box. The outer end of the
Tarnt tbr Nlabt StioMlac
plainly seen as shown in Fig. 2. — Con-
tributed by James M. Kane, Doyles-
town. Pa.
CSheet metal placed between two
boards in the jaws of a vise and
clamped tightly, can be sawed easily
with a hacksaw.
d by Google
Peed Box (or CbickeiM
The sketch shows the construction of
a feed box designed to prevent the scat-
tering of feed and give the coward
metal, stone or wood, as shown in Fig.
1, will, when placed as in Fig, 3, raise
the sloping half to the level of the other
pages. Cover the block with rubber,
wide rubber bands or felt, to prevent
its scratching the desk top. The block
can also be used as a paperweight.
Chicken Peed Box
rooster as much chance to fatten as
the game cock. The base may be made
of a ^-in. board, 1 ft. wide and 3 ft.
long, although any of the dimensions
may be varied to suit special require-
ments. The ends are semi-circular
pieces with a notch, Vi in. deep and 3
in. wide, cut in the center of the round-
ing edge. The ends are connected to-
gether with a piece of wood set in the
notches. The strip of wood is Vi in.
thick, S in. wide and as long as the box.
Notches % in. wide and Ys in. deep
are cut on the under side of this piece
of wood, H4 in. apart. Heavy pieces
of wire are bent in the form of a semi-
circle, as shown. The wires are set in
the H-'"- notches cut on the under side
of the top piece of wood. The ends of
the wires are set in holes in wood pieces
joining the bases of the end pieces.
The baseboard and top are separable. —
Contributed by Maurice Baudier, New
Orleans, La.
A Book Rest
A book that does not open flat is
rather inconvenient to write in when
one of its sides is in the position shown
in Fig. 2. A wedge-shaped piece of
Window Shelf for Flower Pots
On the ledge formed by the top part
of the lower sash of the window I fitted
a board 7 in. wide into each side of
the casing, by cutting away the ends.
I placed a small bracket at each end of
the shelf,' so that it would fit solidly
against the lower window sash to sup-
port the weight of the plants.
One of the brackets I nailed to the
shelf and the other I held in place with
a hinge, the reason being that if both
were solid, the shelf could not be put
on the window, as one end must be
dropped in place before the other. Such
a shelf will hold all the plants a person
can put on it. When not in use, it can
be removed without marring the cas-
ing. — Contributed by G. A. Wood,
West Union, la.
Magnet (or the Work Basket
Tie a ribbon or strong string to the
work basket and fasten a large magnet
to the other end. Needles, scissors,
etc., can be picked up without any
trouble. This device is very conven-
ient for invalids. — Contributed by
Nellie Conlon, Worcester, Mass.
lOOglc
Knife Made from a Hack-Saw Blade
A very serviceable knife with excel-
lent cutting qualities can be made
easily from a discarded hack-saw blade.
The dimensions given in the sketch
make a knife of convenient size.
The saw teeth are ground oS on an
empiy wheel or grindstone to a smooth
edge parallel with the back edge. For
the tutndle, take two pieces of hard
wood, dressing one surface of each
piece, and cut a groove as wide and
thick as the saw blade. Place the
blade in the groove and glue the two
dressed sides of the wood together.
After the glue has dried, the blade can
be pulled out of the groove and the
wood shaped to any desired form. A
small wood-screw is put through one
side of the handle to prevent the blade
from sliding. After completing the
(3 i:::::::tz:::15 ^
^
3n
^
DMaU* of Handle
handle, the blade is put back into the
groove and sharpened to a cutting
edge. — Contributed by H. A. Hutch-
ins, Oeveland, Ohio.
Killing Mice and Rats
A simple and inexpensive means for
killing mice and rats is to leave yeast
cakes lying arounl where they can eat
them.— Contributed by Maud McKee,
Erie, Pa.
chute, thus carrying the car up the in-
cline. If a rack is used on each side of
the chute and a small pinion on the
ends of the axles, a positive upward
movement of the car will be obtained.
— Contributed by W. S. Jacobs, Mai-
den, Mass.
Block for Planing Octagonal Wood
Pieces
The little device shown in the illus-
tration will be found very useful in any
workshop. Two or three of them will
be necessary for planing long pieces.
Each one is made of a hardwood block,
1 in. square and 4 in, long. A notch
is cut in one side, as shown in Fig. 1,
so a piece of wood which has been
planed square will fit in it. Put a screw
m the end of each piece and fasten it
down to the bench. If desired, a tenon
may be made on the bottom of each
block, as shown in Fig. 8, to fit a mor-
tise cut in the bench. Place the blocks
far enough apart so the board to be
planed will rest firmly tn the notches.
Roller Coaster Illusion Traveling Up
an Incline
A toy car with a paddle wheel and a
shaft on both ends traveling upward
on a chute in which water is flowing
down, is shown in the accompanying
sketch. The paddle wheels travel in a
reverse direction causing the ends of
the axles to roll on the edge of the
TiM Notch Hdldi the Wood
Plane the board square first and then
place it in the notches and plane the
corners down to the proper dimen-
sions. — Contributed by Willie Wool-
sen, Cape May Point, N. J.
iv^iOOglc
A Letter Holder of Pierced Metal
The letter holder shown in the illus-
tration will be found convenient for
holding out-going letters that await the
postman's coming, tt can be made of
either copper or brass and need not
FlDlalwd I.ctt*r Holdcc
be of very heavy material. Gauge S3
will be sufficiently heavy. One sheet
of metal, 6 by 9^ in,, a board on which
to work it, and an awl and hammer,
will be needed.
Prepare a design for the front. If
one such as is shown is to be used.
Layout tat Uu llMsl
make one-quarter of it first, and then
get the other parts by folding on the
center lines and tracing. This will in-
sure having all parts alike. The letters
can be put on afterward.
Fasten the metal to the board, using
tacks and nailing outside of the required
space, in the waste metal. Trace the
design on the metal with carbon paper;
or, if desired, paste the paper design
right on the metaL With an awl pierce
the metal between the marginal line
and the design, as shown. The holes
should be uniform along the outlines
but should be pierced promiscuously
otherwise. On the back, only the mar-
ginal line is to be pierced.
Remove the metal, together with the
paper if the latter was pasted to the
metal, and trim off the surplus metal
where the tacks had been placed. File
of{ any sharpness so that the hand may
not be injured in handling it. Place
the metal on the edge of a table or
between two boards, and bend on' the
two lines indicated in the drawing, to
right angles.
A good finish is obtained by just let-
ting the copper age with its natural
color. If any polishing is required, it
should be done before the metal is
fastened to the board and pierced.
Imitating Ground Glass
Make a mixture of white lead in oil,
1 part; varnish, ^ part; turpentine,
}i part, and add sugar of lead as a
dryer. Make a very thin paint of this
and use a broad, flat brush, says Master
Painter. With care you may succeed
in getting the paint on quite evenly all
over, which is desirable. One coat will
do. If it becomes necessary to remove
this coating for renewal, it may be
effected by an applicaticm of potash
lye, or the old may be renewed by a
coating of a mixture of 2 parts hydro-
chloric acid, 2 parts white vitriol, 1
part sulphate of copper (blue vitriol)
and 1 part of gum arable, applied by
means of a brush.
CA detail drawing made of a piece of
furniture before starting the work will
often save time and mistakes.
iv^iOOglc
Making "Spirits" Play a Violin
A very pretty trick, that can be
worked in your own parlor, will pro-
duce as much sensation as a fake
"medium." In all appearance, a violin,
mandolin or ^itar, placed on a table,
will begin to produce music simply
through stamping the foot and a few
passes of the hand. The music will
not sound natural, but weird and dis-
tant.
The trick is done by placing the end
of a small stick on a music box in the
basement of the house and allowing
the other end to pass up through the
floor and table top so it will project
about -fg in. The stick may be placed
by the side of, behind or through the
center of a table leg. Be careful not
to have any obstruction in the way of
the stick. The instrument is placed
sideways on the protruding end of the
stick. The "fake" work of invoking
the "spirit" is performed and ended
by stamping the foot, which signals
the operator in the basement to start
the machine, and the violin seemingly
produces music without anyone touch-
ing it.
So impressive are the results, that
many people really think the spirits
of the departed are playing the violin
with unseen hands. The music is
transmitted through the stick from the
music box to the violin.
The Haiic Produced bv the PhonOR-Bph U 1
■nittad to Iba Violm on the Second Floor
br the Aid of I Long SUch
Sizing a Tbreaoed Hole
It sometimes becomes necessary' to
transfer the size of a threaded hole
from some out-of-the-way place to the
shop in order to make a piece to lit it.
With proper tools this is easy; with-
out them, it might be difficult. One
thing is always at hand and that is
wood. Whittle a stick tapering until
it starts in the hole. Then turn it into
the hole and a fair thread will be made
on the wood. The stick can be car-
ried in the pocket without risk of
changing the size, as would be the case
with ordinary calipers.
Leaded-GlasB Fire Screen
The main frame of the fire screen
shown in Fig. 1 is made from two
pieces of ^-in, square bar iron. The
longest piece, which should be about
51^ ft, long, is bent square so as to
form two uprights, each 28 in, long and
measuring 26 in. across the top. The
bottom crosspiece can be either riveted
or welded to the uprights. Two pairs
of feet, each 6 in. long and spread about
8 in. apart, are shaped as shown in Fig.
2. These are welded to the lower end
of the uprights.
The ornamental scrollwork on the
frame is simple and effective, and is
easy to construct, says Work, London.
The scrolls are attached to the frame
by means of -ficm. round-head machine
screws. The leaf ornament at the ter-
ConpUud Fin Scncn and Pirti
mination of the scroll is shaped and
embossed as shown in Fig, 3, The
metal used for the scrolls is -^ in. thick
by 14 in- wide. The leaf ornament is
formed by turning over the end of a
piece of metal and working it together
at a welding heat, and then shaping
out the leaf with a chisel and files, after
which they are embossed with a ball-
peen hammer.
The center is made from colored
glass of special make for leaded work.
The design is formed in the lead, of
which a cross section is shown in Fig.
4. Use care to give the lead a sym-
metrical outline. The design should
be drawn full size on a large sheet of
heavy paper and the spaces to be occu-
pied by the lead cut out so as to leave
the exact size and shape of each piece
of paper the same as wanted for each
piece of glass. These are used as pat-
terns in marking the glass for cutting.
The glass is cut the same as ordinary
window glass. The glass, lead, border
and special flux can be purchased from
an art glass shop.
After the glass is cut, the work 'of
putting the pieces together with the
lead between them is begun. Secure
a board as wide as the screen — several
narrow boards put together will do —
and begin by placing one vertical side
border, A, Fig. 5, and the base border,
B, on it as shown. Place the corner
piece of glass, C, in the grooves of the
borders, cut a long piece of lead, D, and
hold it in place with two or three brads
or glazier's points. The piece of lead
£ is cut and a small tenon joint made
as shown in Fig. 6, While the piece of
lead D, Fig, 5, is held by the brads, the
piece E can be fitted and soldered. The
soldering is done with a hot soldering
iron and wire solder, using rosin as a
flux, or, better still, special flux pur-
chased for this purpose. After the
joints are soldered, the piece of glass F
is put in place and the lead held with
brads as before until the cross leads
are fitted and soldered. The brads are
then removed, the glass piece as shown
by the dotted lines put in, and the leads
around it held with brads until the
crosspieces are put in and soldered.
This method is pursued until the glass
is complete, then the two remaining
vertical and top pieces of border are
put on and all comers soldered.
The leaded glass is held in the iron
frame by means of eight U-shaped
clips, as shown in Fig. 7. A hole is
drilled in the frame for the retaining
screw, the latter being tapped to the
base of the clip. Special screws may
be made with ornamental heads, as
shown in Fig. 8, and used for securing
the side scrolls and clips together.
dbyGOOgIC
A Revtdving Teeter Board
The accompanying sketch shows the
details of a revolving teeter board for
the children's playground that can be
constructed in a few hours. Secure a
post, not less than 4 in.
square and of the
length given in the
drawing, and round the
comers of one end for
a ring. This ring can
be made of 1-in. strap
iron and it should be
shrunk on the post.
Bore a %-in. hole in the
end of the post for the
center pin to rest in.
Make three washers 3
in. in diameter and Yt
in. thick and drill %-in.
holes through their cen-
ters. Drill and counter-
sink two smaller holes
for 2-in. wood screws
in each washer. Fasten
one of these washers to
the top of the post as
shown. The post is
now ready to be set in
the ground. Coarse
gravel should be packed tightly about
it to make it solid. Concrete is much
better if it can be secured.
To make the swivel you will need
two ^ by 5 by 8-in. plates, rounded at
the top as shown, and two wood blocks,
A and B, each 3^^ by 5 by 10 in. Drill
the lower ends of the plates for four
2^-in. lag screws and the upper ends
for a %-in. bolt. Fasten the plates tc
the block B, then drill a %-in. hole
as shown and fasten the two remain-
ing washers to the block, one on each
side and central with the hole. Bore a
%-ia. hole lengthwise through the
block A for the %-in. rocker bolt This
bolt should be 11^ in. long.
The teeter board is made of a 2 by
13-in. plank about 12 ft. long. It should
be slightly tapered from the center to
the ends. Two styles of hand holds
are shown, but the one on the left is
the one most generally used. The
handles are rounded at the ends and
are fastened to the board with lag
screws or bolts. The block A is fast-
ened to the board with lag screws and
should be a working fit between the
DMalU of TMtB Board
two plates where it is held by means
of the %-in. bolt The center pin is
% in. in diameter and about 9 m. long.
—Contributed by W. H. Dreier, Jr.,
Camden. N. J.
Hmne-Made Pot Covers
Empty thread spools and the tins
used as extra inside covers in lard cans
are usually thrown away, but these can
be put to ._^ ■
ers, if they ^^^— Jlii— i^^
are m a d e ^
up as foU
lows: Saw the spool in half as shown,
make a hole in the center of the tin and
run a screw or nail through the spool
and the tin ; then flatten its end on the
under side. This will make an excel-
lent cover for a pot. — Contributed by
Maurice Baudier, New Orleans, La.
>yGoogIc
An Outdoor Gymnasium
Part I— Ttie Hmixontal Bar
Gymnastic apparatus costs money
and needs to be housed, because it will
not stand the weather. Gymnasiums
are not always available for the average
boy who likes exercise and who would
like to learn the tricks op horizontal
and parallel bars, horse and rings,
which all young athletes are taught in
regular gymnastic courses,
Any small crowd of boys — even two
— having a few simple tools, a will to
use them and the small amount of
money required to buy the necessary
4 filler pieces, % by 3 in. by 8 ft 9 in.
long and 1 piece, 2^/^ in. square by 5 ft.
7 in. long. This latter piece is for the
bar and should be of well seasoned,
straight-grained hickory. It make.s no
difference what kind of wood is used
for the other pieces, but it is best to use
cedar for the heavy pieces that are set
in the ground as it will take years for
this wood to rot. Ordinary yellow pine
will do very well. The four 7-in. boards
should be of some hard wood if pos-
sible such as oak, hickory, maple, chest-
Adjiutabla HoriiOBUl Bu
wood, bolts and rope, can make a first-
class gymnasium. If trees are conven-
ient, and some one can swing an axe,
the money outlay will be almost noth-
ing. The following plans are for ma-
terial purchased from a mill squared
and cut to length. To substitute small,
straight trees for the squared timbers
requires but little changes in the plans.
The most important piece of appara-
tus in the gymnasium is the horizontal
bar. Most gymnasiums have two : one
adjustable bar for various exercises
and a high bar for gymnastic work.
The outdoor gymnasium combines the
two. The material required is as fol-
lows ; 8 pieces of wood, 4 in. square by
9^ ft. long ; 4 pieces, 3 by 4 in. by 8 ft.
long ; 4 piec«5, 1 by 7 in. by 6^ ft long ;
nut or ash. The other material neces-
sary consists of 8 bolts, ^ in. in diam-
eter and 7 in, long; 16 screws, 3 in.
long; 4 heavy screw eyes with two
^^-in. shanks ; 50 ft. of heavy galvanized
wire: 80 ft. of ^-in. manila rope and
4 pulley blocks. Four cleats are also
required but these can be made of wood
at home.
Draw a line on the four 7-in. boards
along the side of each from end to end,
1% in. from one edge. Beginning at
one end of each board make pencil dots
on this line 5 in. apart for a distance of
3 ft. 4 in. Bore holes through the
boards on these marks with a -A-in. bit.
Fasten two of these boards on each
post with the 3-in. screws, as shown in
the top view of the post Fig. 1, form-
oog Ic
tag a channel of the edges in which
the holes were bored. Two of the filler
pieces are fastened in each channel as
shown, so as to make the space fit the
squared end of the bar snugly. The ends
of the boards with the holes should be
flush with the top of the post. This
will make each pair of holes in the 7'in.
boards coincide, so the ^-tn. bolt can
be put through them and the squared
end of the bar.
Select a level place where the appara-
tus is to be placed and dig two holes
6 ft. .apart, each 3 ft. deep and remove
all loose dirt. The ends of the posts
not covered with the boards are set in
these holes on bricks or small stones.
The channels formed by the boards
must be set facing each other with the
inner surfaces of the posts parallel and
5 ft. 8 in. apart. The holes around the
posts are filled with earth and welt
tamped.
The hickory piece which is to form
the bar should be planed, scraped and
sandpapered until it is perfectly smooth
and round except for 3 in. at each end.
Bore a i^-in. hole through each square
end ly^ in. from the end. The bar may
be fastened at any desired height by
slipping the H-in. bolts through the
holes bored in both the bar and chan-
nel.
Each post must be well braced to
keep it rigid while a person is swing-
ing on the bar. Four anchors are
placed in the ground at the corners of
an imaginary rectangle 9 by 16 ft., in
the center of which the posts stand as
shown in Fig. S. Each anchor is made
of one 8-ft. piece of wood, around the
center of which four strands of the
heavy galvanized wire are twisted, then
buried to a depth of 2 ft., the extending
ends of the wires coming up to the
surface at an angle.
The heavy" screw eyes are turned
into the posts at the top and lengths of
ropes tied to each. These ropes or guys
pass through the pulley blocks, which
are fastened to the projecting ends of
the anchor wire, and return to the
posts where they are tied to cleats. Do
not tighten the guy ropes without the
bar in place, as to do so will straii
the posts in the ground. Do not change
the elevation of the bar without slack-
ing up on the ropes. It takes but little
pull on the guy ropes to make them
taut, and once tightened the bar will
be rigid.
Oil the bar when it is finished and
remove it during the winter. It is well
to oil the wood occasionally during the
summer and reverse the bar at times
to prevent its becoming curved. The
wood parts should be well painted to
protect them from the weather.
Electrostatic Illumination
Any one having the use of a static
machine can perform the following ex-
periment which gives a striking result.
A common tumbler is mounted on a
revolving plat-
form and a nar-
row strip of tin-
foil is fastened
with shellac var-
nish to the sur-
face of the glass
as follows : Start-
ing beneath the
foot of the glass
from a point im-
mediately below
the stem, it is
taken to the
edge of the foot;
it f o 11 o w s the
edge for about 1
in. and then
passes in a curve across the base, and
ascends the stem; then it passes
lOOglc
around the bowl in a sinuous course to
the rim, which it follows for about one-
third of its circumference ; after which
it descends on the inside and termin-
ates at the bottom. The tinfoil on the
outside of the glass is divided by cut-
ting with a knife every ^ in,, the parts
inside and beneath the glass being left
undivided. Current is then led from a
static machine to two terminals, one
terminal being connected to one end of
the tinfoil strip, and similarly the sec-
ond terminal makes contact with the
other end. As soon as the current is led
into the apparatus, a spark is seen at
each place where the knife has cut
through the tinfoil. If the tumbler is
rotated, the effect will be as shown in
the illustration. A variety of small and
peculiar effects can be obtained by
making some of the gaps in the tinfoil
larger than others, in which case larger
sparks would be produced at these
points. The experiment should be car-
ried out in a darkened room, and under
these circumstances when nothing is
visible, not even the tumbler, the effect
is very striking.
Balloon Ascension Illusion
By C. W. Nieman
In these days of startling revelations
in air-craft flight we are prepared to
see any day some marvelous machine-
driven bird cutting figure-eights all
over the sky above our heads. One boy
recently took advantage of this state
of expectancy to have an evening's
harmless amusement, through an illu-
sion which deceived even the most in-
credulous. He caused a whole hotel-full
of people to gaze open mouthed at a sort
of "Zeppelin XXIII," which skimmed
along the distant horizon, just visible
against the dark evening sky, disap-
pearing only to reappear again, and
working the whole crowd up to a
frenzy of excitement. And all he used
was a black thread, a big piece of card-
board and a pair of fleltT glasses.
He stretched the thread between tWo
buildings, about 100 ft. apart, in an
endless belt, passing through a screw-
eye at either end. On this thread he
fastened a cardboard "cut-out" of a
dirigible, not much to look at in day-
time, but most deceptive at dusk. By
pulling one or the other string he
moved the "airship" in either direction.
He took the precaution of stretching
his thread just beyond a blackberry
hedge and thus kept over-inquisitive
persons at a safe distance. He also saw
to it that there was a black background
at either end so that the reversing of
the direction of the craft would not be
noticed.
In attracting the crowd he had a
confederate stand looking at the mov-
ing ship through a field glass, which at
once gave the suggestion of distance,
and materially heightened the illusion.
When the interest of the crowd, which
at once gathered, was at its height, the
"aeronaut" pulled his craft out of sight
and let the disillusion come when the
light of day laid bare his fraud.
A Cork Extractor
The device shown in the sketch is
for removing a cork or stopper from a
bottle whether
full or empty
where the cork
has been pushed
inside. A wire
about No. 14
gauge is bent as
shown at B, Fig.
1, to fit the index
finger and the
other end tiled to
a point C, and
turned in a spir-
al D, so the point
will he on top.
Insert this tool F'«i
in the bottle as
shown in Fig. 3 and place the end D
under the cork and pull up. The cork
will come out easily. — Contributed by
Maurice Baudier. New Orleans. La.
l^^.
,ooglc
An Outdoor Gjminashim
Part II— Parallel Bars
Parallel bars hold a hifh place in the
affection of those who Trequert gym-
nasiums as the best apparatus for de-
velopment of the back and shoulder
muscles, as well as a promoter of ease
and grace of movement. The outdoor
"gym" can have a set of these bars
with very little more labor than was
required for the horizontal bar.
The material required is as follows : 4
shown in the diagram, and fasten the
lower ends to the beveled ends of the
bases with the spikes. Fasten the up-
per ends of the knee braces to the up-
rights with the 8-in. bolts put through
the holes bored for that purpose, and
countersinking the heads. Lay the
whole end flat on the ground and make
a mark ZVz ft. from the bottom of the
base up along the posts, and fasten the
n
a»>
PI
-^
1- — 18'—
4 '
■
•
•
I
•
^■\v^f^
V
"
w
KSKS
■\"
w ■,
N\
<it -A-
S-DC View
U oi th* Parallil Ban
posts, preferably cedar, 4 in. square and
C ft. long ; % base pieces, 4 in, square
and 5^ ft. long; % cross braces, 2 by
4 in. by 3 ft. % in. long ; S side braces,
2 by 4 in. by 7 ft. 8 in. long ; 4 knee
braces, 2 by 4 in. by 3 ft. 8 in, long;
3 bars of straight grained hickory, %
by 3 in. by 10 ft. long ; 4 wood screws,
fi in. long; 4 bolts, 8 in. long; 8 bolts,
7 in. long and 1 doz. large spikes.
To make the apparatus, lay off the
bases as shown in the end view and
bevel the ends at an angle of 60 deg.
Chisel out two notches 4 in. wide and 1
in. deep, beginning at a point 9 in. from
either side of the center. These are to
receive the lower ends of the posts.
Bevel two sides of one end of each
post dQwn to the width of the finished
bar — a little less than 3 in. Cut notches
in these ends to receive the oval bars.
Bevel the ends of the knee braces, as
end braces with their top edges flusl
with the marks, using four of the 7-in
bolts. Finally toe-nail the base into th(
ends of the posts merely to hold them
in position while the whole structure
is being handled.
Two endpieces must be made. These
sets or ends of the apparatus are to
be buried in trenches dug to the depth
of 8% ft, with the distance between
the two inner surfaces of the posts,
which face each other, of 7 ft. After
the trenches are dug, additional long,
shallow trenches must be made connect-
ing the posts to receive the side braces.
The function of these side braces is to
hold both ends together solidly. It is
necessary to bury these braces so they
will be out of the way of the performer.
The side braces are bolted to the posts
just below the cross braces, so the
bolts in both will not meet. The bars
are dressed down so that a cross sec-
tion is oval as shown in the end view.
They are to be screwed to the notched
ends of the uprights with the 6-in.
screws. The holes should be counter-
sunk so they can be filled with putty
after the screws are in place. The bars
should be well oiled with linseed oil to
protect them from the weather, and in
the winter they should be removed and
stored.
Every piece of wood in this appara-
tus can be round and cut from trees, ex-
{To be Continued.)
cept the bars. If using mi[1~cut lumber,
leave it undressed, and if using round
timber leave the bark upon it as a pro-
tection from the weather. It is well
to paint the entire apparatus, save the
bars, before burying the lower part of
the end pieces. The wood so treated
will last for years, but even unpainted
they are very durable. Be sure to
tamp down the earth well about the
posts. A smooth piece of ground should
be selected on which to erect the ap-
paratus.
Combined Ladle and Strainer
When using a strainer in connection
with a ladle the operation requires both
Turpentine in Cutting Oil
Wben cutting steel or wrought iron
in a lathe, milling machine, drill press
or planer, it is sometimes necessary to
leave a smooth surface. Oil, or various
cutting compounds of oil, is used for
this purpose and to keep the surface
cool. If a little turpentine is added to
the oil, it will greatly assist in leaving
a smooth surface. A proportion of
one-quarter turpentine is good.
hands. A convenient article where a
ladle and . strainer are needed is to
swing a cup-shaped strainer under the
bowl of a ladle as shown in the illus-
tration. The strainer can be held in
place with small bands that fit loosely
over the handle, and a small tip sol-
dered to the ladle. These will allow
the ladle to be turned, leaving the
strainer always in position. A large
sized ladle, equipped with a strainer,
is )ust the thing for painters to dip and
strain paint, while a small one is of
great assistance to the housewife for
dipping and straining soups, jellies,
etc. — Contributed by W. A. Jaquythe,
Richmond, Cal.
CA solution consisting of 1 dr. of so-
dium carbonate and 1 qt. of mtlk makes
an excellent cleaner for motorists'
gloves.
Center of Gravity Experiment
This experiment consists of suspend^
ing a pail of water from a stick placed
upon a table
as shown in
the accompa-
nying sketch.
In order to ac-
complish this
exper i m e n t,
which seems
impossible, it
is necessary to
place a stick,
A, of sufficient
length, be-
tween the end of the stick on the table
and the bottom of the pail. This makes
the center of gravity somewhere near
the middle of the stick on the table,
thus holding the pail as shown.
CA heavy lathe cut will not do accurate
work.
d by Google
An Outdoor Gymnaaum
PART III— The Horse
The Gurman horse is that peculiar
piece of apparatus which is partly a
liorizontal obstruction to leap over,
partly a barrier for jumps, partly a
smooth surface of long and narrow
dimensions over and about which the
body may slide and swing, and partly
an artificial back for the purpose of a
peculiar style of leap frog.
The round part of this log must be
planed, scraped and sandpapered until
it is perfectly smooth, and free from
knots, projections and splinters. Hand
holds must be provided next. These
are placed 18 in. apart in a central
position on the horse. Make two paral-
lel saw cuts S in. apart, straight down
in the round surface of the horse until
The Cennaii Hdim
To make a horse for the outdoor
"gym" requires no difficult work save
the preparation of the top or body of
the horse. The making of the regular
gymnasium horse requires a very elab-
orate wood-working and leather uphol-
stering plant, but the one used for out-
door woiic can be made of a log of wood.
Procure from a saw mill, wood yard or
from the woods, one-half of a tree
trunk from a tree 9 to 15 in. in diam-
eter — the larger the better. The length
may be anywhere from 4 to 7 ft., but
AH f t b a good length.
each cut is 9 in. long. Chisel out the
wood between the cuts and in the mor-
tises thus made insert the hand holds.
Each hand hold is made of a 9-tn. piece
of 3 by 4-in. stud cut rounding on one
edge. These are well nailed in place.
The body of the horse is to be fast-
ened on top of posts so that it may
be adjusted for height. It is not as
difficult to make as the horizontal and
parallel bars. The material required
IS as follows : Two posts, 4 in. square
by 5 ft. long; 2 adjusting pieces, 3 by
4 in. by 3 f L 3 in. long; 1 cross brace.
2 by 4 in, by 3 ft, long; S bases, 4 in.
square by 5*4 ft. long; 4 knee braces,
8 by 4 in. by 3 ft. long; two ^-in. bolts,
9 in. long, to fasten the knee braces at
the top; ten ^/^-in. bolts, 7 in, long, 4
to fasten the knee braces at the bottom,
3 to fasten the cross brace and 4 to
be used in fastening the adjusting
pieces to the posts.
To construct, lay out tiie bases as
shown in the drawing, making the mor-
tises to receive the bottom ends of the
posts exactly in the center, and cut a
slanting mortise 6-in. from each end to
receive the ends of the knee braces.
Bevel the ends of the knee braces and
fasten the upper ends of each pair to
the post with one 9-in. bolt. Fasten
the lower ends to the base with the
7-in. bolts.
The upper end of each post should
have %-in. holes bored through it paral-
lel to the base at intervals of 3 in., be-
ginning 1^ in. from the top and ex-
tending down its length for 3 ft. 4^ in.
The adjusting pieces are to be bored in
a similar manner after which they are
to be mortised into the under side of
the horse top 15 in. from each end, and
secured with screws put through the
top and into the end of the adjusting
pieces.
The bases with their posts and knee
braces are buried 2 ft. 4 in. in the
ground, parallel to each other and the
same distance apart as the adjusting
pieces are mortised in the horse top.
When the ground has been filled in
and tamped hard, the cross brace
should be bolted in position with its
lower edge resting on the ground and
connecting the two posts.
The height of the horse from the
ground is adjusted by changing the
bolts in the different holes connecting
the two adjusting pieces with the two
posts. Much pleasant and healthful
gymnastic exercise can be had in com-
petitive horse jumping and leaping, the
handles providing a way to make many
different leaps through, over and
around, including not only those made
to see who can go over the horse from
a standing or running start at the
greatest height, but who can go over at
the greatest height when starting from
the "toeing off mark" farthest away
from the horse. This horse should be
located on level ground having smooth
space about it for several feet
Spoon Rest for Kettles
A rest for keeping spoons from
slipping into kettles can be made from
a strip of
metal bent
as shown in
the illustra-
tion. The
spring of the
metal will
make it easy
to apply to
the kettle.
The spoon
placed in the
rest will
drain back into the kettle. The cover
can be placed on without removing the
spoon.-— Contributed by W. A. Ja-
quythe, Kicbmond, Cal.
Reason for Bursting of Gun Barrels
Gun barrels do not burst without a
cause and usually that cause is one of
which the shooter is entirely ignorant,
but nevertheless, no one is responsible
but himself, says the Sporting Goods
Dealer. Gun barrels can only burst by
having some obstruction in the barrel
or by overloading with powder. Any
gun barrel can be burst by misuse or by
carelessly loading smokeless powder,
but no barrel will burst by using factory
loaded ammunition, provided there is
no obstruction or foreign substance in-
side the barrel. When a gun barrel
bursts at the breech or chatnber, it is
caused by an overloaded shell, and
when it bursts in the center or near the
muzzle, it is caused by some obstruc-
tion, such as a dent, snow, water, etc.
ly v^<v.^v_'Vl^_
Hand Sled Made of Pipe and Fittings
The accompanying sketch shows
how an ordinary hand sled can be
made of %-in. pipe and fittings. Each
runner is made of one piece of pipe
bent to the proper shape. This can
be accomplished by filling the pipe
with melted rosin or lead, then bend-
ing to the shape desired, and afterward
removing the rosin or lead by heating.
Each joint is turned up tightly and
well pinned or brazed. One of the top
crosspieces should have right-hand
and left-hand threads or be fitted with
a union. Also, one of the top pieces
connecting the rear part to the front
part of each runner must be fitted in
the same way. The top is fastened to
the two crosspieces.
Such a hand sled can be made in a
Bent-Iron Pipe Sack
Strips of soft iron, ^ or A in. in
width and ^ in. thick, are used in
few hours' time and, when complete,
is much better than a wood sled. — Con-
tributed by James E. Noble, Toronto,
Ontario.
Emergency Magnifying Glass
When in need of a microscope in
the study of botany, one may be made
in the following manner: Bend a small
wire or the stem of a leaf so as to form
a small loop not larger than the ordi-
Loop loclMiBS ■ Dtop of Wtter
nary drop of water. When this is
done place a drop of clear water in the
loop and the microscope is complete.
This temporary device will prove val-
uable where a strong magnifying glass
is not at hand. — Contributed by Arthur
E. Joerin, Paris, France.
Cfl A A A A K
making the pipe rack shown in Fig. 1.
This material can be obtained from
any local hardware dealer who carries
bar iron in stock.
Draw a full-size sketch of the design
on paper, then run a string over each
part, which, when straightened out,
will give the length. The scrolls are
bent with a pair of round-nose pliers.
These, with a pair of flat-nose phers,
are all the tools necessary. The part
for holding the pipes is shown in Fig.
2. The end elevation, at E and F,
shows how the rack is fastened to the
main frame of the rack. — Contributed
by J. W. Vener, Boston, Mass.
To Clean Silver
A good method to clean silver of any
kind is to place the articles in an alu-
minum vessel and add a few pieces of
zinc. Hot water is added and the silver
boiled until clean. It is best to use
soft water. The tarnish is removed
by the electrolytic action of the zinc on
the aluminum and the silver, and the
latter will take on a bright luster.
This method of cleaning will not in-
jure oxidized or black silver, nor that
which is partly oxidized.
IZ.rli^jOOglC
Sharpening Skates with a ^e
Two methods are shown in the
sketches for filing skates — one for hol-
low filing and the other for filing flat
3 and 4 can be used for filing a slightly
curved surface in the blade. A piece
of tin or sheet metal is shaped over a
round file as shown in Fig. 3. The
manner of filing the curves is shown
in Fig. 4. The piece of metal is held
over the file and blade of the skate as
the file is worked.
POIdk ■ Flat Sarface
and straight across the blade. The
method shown in Figs. 1 and 2 is for
filing the blade flat. The device for
holding the skates consists of a board
on which four blocks, AA and BB, are
nailed. These blocks are fastened on
the board in the relative positions of
the heel and sole on a shoe. The skates
are clamped on them in the same man-
ner as on a shoe. A flat file is drawn
across both blades of the skates as
shown. After the roundness is cut
down on the edges of the blades the
skates are removed and the file is
drawn along the sides to remove the
Lines and Letters Made with a
Carpenter's Pencil
The sketch shows some unusual work
made with a carpenter's pencil. If the
flat lead is notched with a three-cor-
nered file (Fig. 1), two parallel lines
may be drawn at one stroke, or various
rulmgs may be made, as shown in Fig,
Z. Broad lines can be made, as shown
in Fig. 3, or unequal widths as in Fig, 4.
ft™ (Rmi
ria.a Fi».g
PcDcU PolnM aod Thrir Wmk
In Figs. 2, 5 and 6 are shown lines
especially adapted for the bookkeeper
or draftsman. If one lacks the ability to
draw old English letters with a pen, the
letters may be first drawn with a car-
penter's pencil (Fig. 7) and the outlines
marked with ink and finally filled in.
Narrow lines are made with points cut
as in Figs. 8 and 9. A little practice
with the carpenter's pencil in making
these letters will enable the student to
finally produce them with the pen used
for the purpose.
FIHog ■ Cnned Sarfbee
OAluminum wire plunged hot into a
burr. Skates filed in this way have cold solution of carbonate of soda be-
flat surfaces with sharp edges. comes coated with a strong layer of
Some skaters like a hollow-ground oxide which forms an excellent insu-
skate and the method shown in Figs, lator to electricity.
dbyGOOgIC
. 807
How to BuOd an Ice-Yacht*
The plans and specifications shown
in the illustrations are for making a
400-ft. class ice-yacht, having a double
rockpit to accommodate four persons.
The weight of the persons in the for-
ward cockpit keeps the boat from rear-
ing when in a stiff breeze. The
forward cockpit can be removed if
backbone,
plainly shown in the sketches. The
backbone is 37^ ft. over all, 18 in. in
the center, 5 in, stern, 3^ in. at the
nose; width 4^ in. All wood should
be selected from the best grades, well
seasoned and free from checks. In Fig.
1 is shown the complete ice-yacht with
general dimensions for the sail and
main parts. Other dimensions are
shown in Fig. S. The backbone is
white pine ; center, clear spruce ; sides,
white oak caps ; runner plank, bass*
wood, butternut or oak ; cockpit, oak ;
runners, chocks, etc., quartered white
oak. All the iron work should be first-
grade Swedish iron, with the excep-
tion of the runners, which are soft cast
iron.
It is not necessary to go into detail
\\ith the measurements as they are
capped on the upper and lower edges
full length with strips of oak, iYi in.
wide and % in. thick. The lengthwise
side strips of spruce are 1% in. thick.
The fiUing'in pieces placed between
the side pieces are of seasoned white
pine, leaving the open places as shown
in Fig. 2. The parts are put together
with hot glue and brass screws.
The runner plank should be placed
y H. Percir Aihler ia Rodder.
jOOgIC
DauU* ef the Ice-Yacbt PaiU
l:V V^JV.^V_'V1V_
with the heart of the wood up, so as to
give the natural curve from the ice so
that it will act as a spring. The plank
is 16 is. wide in the center, 14 in. at the
ends; 4% in. thick at the center and
2% in. at the ends.
Details of the runners are shown in
Figs. 3, 4, 6, 6, 7, 8 and 9. The cast
iron shoes are hied and finished with
emery paper, making the angle on the
cutting edge 45 deg. on both sides.
The runners are 7^4 in. wide over all
and ZYg in. thick. The soft iron cast-
ing is 2^4 in. deep. The shoes are fast-
ened by %-in. machine bolts. These
are shown in Figs. 3 and 9, The rud-
der is 2% in. thick, 5 in. deep, including
wood and iron, and 3 ft. long. The cast
iron shoe is 1% in. deep and fastened
on with four ^-in. machine bolts. A
brass plate, ^ in, thick, 2 in. wide and 7
in. long, is inserted on each side of the
runners as shown in Fig. 9. Three
holes are drilled through for a %-in.
riding bolt that can be shifted as de-
sired for rough or smooth ice. The
runner chocks and guides are 1% in.
thick and iVs in. deep. They are set
in the runner plank V4 in. and fastened
with glue and H-in- lag screws. These
are shown in Figs. 6 and 7.
The aft cockpit is stationary, while
the fore or passenger cockpit can be re-
moved at will. Both cockpits are the
same size, 42 in. wide and 7 ft. long
over all. Each one has a bent rail, 1^
in. by 4 in., grooved % in. by % in.
before bending. The flooring is of oak,
1^ in. thick and 4 in. wide, tongue-and-
grooved. The forward cockpit is made
in halves and hung on the backbone
with wrought-iron straps and bolts.
These are shown in Figs. 41, 43 and 44.
Two pieces of oak, ^ in. by 4 in. are
fastened with screws to the flooring,
parallel with the backbone in the for-
ward cockpit. The runner plank which
passes under this cockpit gives it sta-
bility.
The spars should be hollow and have
the following dimensions : Mast, 23 ft.
3 in.; heel, 3% in.; center, 6^ in.; tip,
4 in. ; boom 23% ft. ; heel, 3% in. ; cen-
ter, 4 in. ; tip, 2% in. at ends ; gaff, 12%
ft. ; center, 3% irt- ; ends, i^ in. ; jib-
boom, 10% ft. ; 1% in. at the ends, 3%
in. at the center. The gaff is furnished
with bent jaws of oak. Fig. 17, and the
main boom with gooseneck. Fig. 13.
Galvanized cast-steel yacht rigging,
A in. in diameter, is used for the
shrouds; jibslay, % in, in diameter;
runner plank guys, A in. in diameter;
bobstay, % in. in diameter ; martingale
stay, Yi in- in diameter. The throat and
peak halyards are % in. in diameter;
jib halyards, ^A in. in diameter.
The main sheet rigging is A-in. Rus-
sian bolt rope; jibs, i^-in. manila bolt
rope, 4-strand; jib-sheet, %-in. manila
bolt rope. Four %-in. bronze turn-
buckles, Fig. 34, are used for the
shrouds; one %-in. turnbuckle for the
jibstay and one for the bobstay; four
%-in, turnbuckles for the runner plank
stays, and one for the martingale stay.
Two rope blocks for %-in. wire rope,
Fig. 10, are used for the peak and
throat, and one block for the wire rope
Yi in. in diameter for the jib halyard.
Four 6-in. and one 7-in. cleats. Fig. 18,
are used. The blocks shown in Fig. 11
are used for the main and jib sheets.
The steering arrangement is shown in
Figs. 4 and 5. The tiller is 3% ft. long ;
rudder post, 1% in. in diameter ;
shoulder to lower end of jaws, 4 in. ;
depth of jaws, 3% •"■ ; length of post
including screw top, 12 in. The rubber
washer acts as a spring on rough ice.
In Figs. 13, 14, 15 and 16 are shown
metal bands for the nose of the back-
bone, and Figs. 19, 20, 21. 22 and 23
show the saddles that fit over the back-
bone and hold the runqer plank in
place. There are two sets of these, A
chock should be sunk in the runner
plank at each side to connect with the
backbone to keep it from slipping side-
wise as the boat rises in the air. The
martingale spreader is shown in Figs.
24 and 25. Straps through which the
ring bolts for the shrouds pass on the
ends to fasten the turnbuckles for the
runner plank guys are shown in Figs,
26 and 27, The bobstay spreaders are
shown in Figs. 38, 39 and 30. In Fig.
31 is shown the top plate for the rudder
post and in Figs. 32 and 33, the lower
plate for same. The mast step is shown
.,:z:cbv^jOOglC
in F^ 35, 36 and 37. Two positions
of the jib traveler are shown in Fig.
38. The anchor plate for the bobstay
under the cockpit is shown io Figs. 39
and 40.
At the nose and heel the runner
plank guys end in a loop. The bobstay
has a loop at the nose and ends in a
turnbuckle that fastens to the anchor
plate under the cockpit, aft. The
shrouds, jibstay and martingale have
loops at the masthead and are spliced
bare over solid thimbles. The loops are
finished in pigskin and served with soft
cotton twine over the splice and var-
nished. The parceling is done with in-
sulating tape. Serve the tiller with
soft cotton twine and ride a second
serving over the first. For the halyards
hoisting use a jig shown in Fig. 46.
The thimble shown in Fig. 47 is made
by splicing the rope to the thimble at
running part of halyard and passing
back and forth through cleat and
thimble. This gives a quick and strong
purchase and does away with cumber-
some blocks of the old-fashioned jig.
The jib-sheet leads aft to the steering
cockpit. The main-sheet ends in a jig
of a single block and a single block with
becket. Be sure that your sail covers
are large enough — the sail maker al-
ways makes them too tight. The cock-
pit covers must fit tightly around the
cockpit rail. Many boats have sail and
cockpit covers in one piece.
The woodwork may be finished as
desired by the builder. The dimen-
sions of the sails are given in the gen-
eral drawing. Fig. 1.
Turning Lights On and Off from Any Number of Places
This can be done by the use of any
number of reversing switches such as
^
■^
Wlrlni Diagram
those shown at B and C. These are
inserted between the two-way switches
A and D. Turning such a switch up or
down connects the four contact pieces
either diagonally as at C, or length-
wise as at B. The diagram shows con-
nection from A to D, when the lamps
will be on, but by turning either of
these four switches into its alternative
position, shown by the dotted lines, the
circuit will be broken and the lights
extinguished. When this has been
done, the circuit may be restored and
the lamps lighted again by altering
either of the four switches in exactly
the same way, and so on.
It will be observed that a reversing
switch used in this way practically un-
does whatever is done by the other
switches. In the accompanying dia-
gram only two reversing switches are
shown and the lights can be independ-
ently controlled from four distinct
positions. Any number of reversing
switches can be placed between the
two-way switches A and D to increase
the number of places from which the
lights could be turned on and off. —
Contributed by J. S. Dow, Mayfield,
London.
How to Make an Electric Pendant
Switch
It is often desired to use a pendant
switch for controlling clusters of in-
candescent lamps. When such a
switch is not at hand, a very good
substitute can be made by screwing a
common fuse plug into a key socket
and connecting the socket in series
with the lamps to be controlled. In
this way you get a safe, reliable, fused
switch, — Contributed by C. C. Heyder,
Hansford, W. Va.
CNever guess the length of a piece of
work — measure it.
d by Google
Home-Made Water Motor
The small wster motor shown in the
illustration is constructed in the same
manner as a German toy steam tur-
bine. The wheel, which is made of
aluminum fj in. thick and 7 in. in di-
ameter, has 24 blades attached to it.
The lugs or extensions carrying the
rim must be made from the metal of
the wheel, therefore a circle 8 in. in di-
ameter must be first described on the
aluminum plate, then another circle 7
in. in diameter within the first and then
a circle for the base of the blades, 3H
in. in diameter. Twenty-four radial
lines at equal distances apart are drawn
between the two smaller circles and a
'4-in. hole drilled at the intersecting
points of the radial lines and the inner-
most circle.
Centrally between each pair of ra-
dial Hnes and between the two outer
circles, ^ by %-in. lugs are marked out
and the metal cut away as shown in
Fig. 1. A Vs-in- hole is then drilled in
the center of each lug. Each division is
separated by cutting down each radial
line to the Vi-in- hole with a hacksaw.
Each arm is then given a quarter turn,
as shown by the dotted lines in Fig.
3, and the lug bent over at right angles
to receive the rim. The rim is made of
the same material as the disk and con-
tains twenty-four */^-io. holes corre-
sponding to those in the lugs to re-
ceive brass bolts ^-in, long.
The disks PP were taken from the
ends of a discarded typewriter platen,
but if these cannot be readily obtained,
they can be turned from metal or a
heavy flat disk used instead.
The casing was made from two alu-
minum cake pans whose diameter was
8 in. at the base, increasing to 9 in. at
the rim. The centers of these were lo-
cated and a Vi-in. hole drilled for the
shaft. The
disks P are
the same as
''•■• used on the
wheel. Six holes %-in. in diameter were
drilled through the flat part of the rims
while the two halves were held together
in a vise. Bolts were placed through
these holes to join the casing when
ready for assembling. One side of the
casing was then bolted to two 4-ia. or-
dinary metal shelf brackets which were
screwed to a substantial wood base.
This kept one-half of the casing inde-
pendent of the main structure so that
the wheel is easily accessible.
The nozzle was -made of ^-in. brass
pipe which was first filled with molten
babbitt metal. When the metal was
cool, a ^/4-tn. hole was drilled halfway
through the length of the tube, the hole
being continued through to the other
end by means of a H-in. drill. The
lower orifice was then slightly en-
larged with a small taper reamer, and
the upper portion of the bore was
reamed out almost to the brass to make
a smooth entrance for the water.
A fixture to hold this nozzle is shown
in Fig. 3. It was cast of babbitt metal
in a wood mold. The hole for the noz-
zle was drilled at an angle of 20 deg.
to the plate part. An alternative and
perhaps easier way would be to insert
the nozzle in the mold at the proper
angle and cast the metal around it. A
hole was then cut in one of the sides of
the casing at a point 2% in. along a
horizontal line from the center. The
nozzle fixture was then bolted on with
oog Ic
the exit orifice of the nozzle pointing The wheel was used on the drip-
downward and through the hole in the board of a kitchen sink and no pro-
casing, vision was made to carry off the spent
Six Ys-ia. holes were drilled through water except to cut two */^-in. holes in
the flat portions of the rims while the the bottom of the casing and allowing
two halves of the casing were iield se- the waste to flow off directly into the
curely together in a vise. Bolts were sink. — Contributed by Harry F. Lowe,
used in these holes to join the casing. Washington, D. C.
Device for Baseball Throwing Practice
Anyone training to be a baseball
player will find the device shown in the
accompanying illustration a great help
when practicing alone. It consists of
two cement slabs, one flat and upright,
the other curved and on the ground.
The vertical slab is fastened securely
against a fence, barn or shed. The
barn or the shed is preferable, for if
the slab is fastened to a fence, the ball
will bound over a great many times and
much time will be lost in finding it.
The player stands as far as he cares
from the slabs and throws the bait
against the lower slab. The ball im-
mediately rebounds to the upright slab
and returns with almost as great a
force as it was delivered. If the
thrower does not throw the ball ex-
actly in the same spot each time, the
ball will not rebound to the same place,
consequently the eye and muscles are
trained to act quickly, especially if the
player stands within 15 or 20 ft. of the
slabs and throws the ball with great
force.
This apparatus also teaches a person
to throw accurately, as a difference in
aim of a few inches on the lower slab
may cause the ball to fly away over the
player's head on the rebound. — Con-
tributed by F. L. Oilar, La Fayette,
Indiana.
How to Mail Photographs
Cut a piece of cardboard 1 in. longer
and 1 in. wider than the mount of the
photograph and lay the picti\re on it in
the center. This allows a ^-in. border
on all sides of the photograph. Punch
two holes 1 in. apart at A, B, C and D,
Fig. 1, in the cardboard border close
to the edge of the picture. Put a string
up through the hole B, Fig, 2, then
across the comer of the photograph and
down through the hole C and up
through hole D, then to E, etc., until
the starting point A is readied, and tie
the ends.
The photograph will not get dam-
aged, if it is covered with tissue paper
and placed with the face to the card-
board. The extension border of card-
board prevents the edges of the mount
from being damaged and the comers
from wearing. Both cardboard and
photograph are wrapped together in
paper, and the package is ready for
mailing. — Contributed by Earl R.
Hastings. CorintK. Vt.
d by Google
A Mystifying Watch Trick
Borrow a watch from one of the au-
dience and allow the owner to place it
in the box, as shown in Fig. 1. This
box should be about 3 in, long, 4 in.
wide and 2^ in. deep, says the Scien-
tific American, It should be provided
with a hinged cover, M, with a lock, N.
The tricky part of this box is the side
S, which is pivoted at T by driving
two short nails into it, one through the
front side and the other through the
back, so that when S is pushed in at
the top, it swings around as shown in
Fig. 1 and allows the watch to slide
out into the performer's hand. The
side S should fit tightly when closed,
so that the box may be examined with-
out betraying the secret. As the side
S extends down to the bottom of the
box, it facilitates the use of the fingers
in pulling outward at the lower pare
while the thumb is pressing inward at
the top part. The side of the box op-
posite S should be built up in the same
way, but not pivoted.
Use a flat-bottom tumbler. A, Fig. 2,
containing an inner cone, B, for
the reproduction of the watch. The
cone is made of cardboard pasted to-
gether so.it fits snugly inside of the
tumbler. The cone is closed except
at the bottom, then bran is pasted on
the outside surfaces to make the tum-
bler appear as if filled with bran when
it is in place. Place the tumbler with
the cone inside on a table somewhat in
the background. Put some loose bran
on top of the cone and allow the cork,
attached as shown in B, Fig. 2, to hang
down on the outside of the tumbler,
away from the audience. A large hand-
kerchief should be laid beside the tum-
bler.
After the watch has been placed in
the box. Fig. 1, the performer takes the
box in his left hand, and while in the
act of locking it with his right hand
secures possession of the watch as pre-
viously explained. Tossing the key
to the owner of the watch, the per-
former places the box on a chair or
table near the audience and, with the
watch securely palmed, walks back to
fet the tumbler. Standing directly in
ront of the tumbler with his back to-
ward the audience, the i lerformer
Parta far tbc Wateb Tridc
quickly raises the cone with his right
hand, lays the watch in the bottom of .
the tumbler and replaces the cone.
The loaded tumbler and the hand-
kerchief are then brought forward, and
the former is placed in full view of the
audience with the cork hanging down
behind it. The performer calls atten-
tion to the tumbler being full of bran
and picks up some of it from the top
to substantiate his statement. He
then spreads the handkerchief over
the tumbler, commands the watch to
pass from the box into the tumbler
and the bran to disappear.
The box is then handed to the owner
of the watch so that he may unlock it
with the key he holds. As soon as
the box is found to be empty, the per-
former grasps the handkerchief spread
over the tumbler, also the cork tied to
the cone. Raising the handkerchief,
he carries up the cone within it, leav-
ing the watch in the bottom to be n-
turned to its owner.
lOOglc
Locking Several Drawers with One
Lock
A series or row of drawers can be
vecured with one lock by using the de-
vice shown
in the
sketch.
This
method
takes away
several
d a n g 1 ing
locks and
the carry-
ing of many
keys. A rod
is used
through the
various
staples over
the hasps.
The rod is
upset o n
one end and
flat t e n e d
to make sufficient metal for drilling a
hole large enough to insert the bar of
a padlock. If the bar is made of steel
and hardened, it is almost impossible to
cut it in two. — Contributed by F. W,
Bentley, Huron, S, Dak,
Testing Small Electric Lamps
The accompanying sketch shows the
construction of a handy device for
testing miniature electric lights. The
base is made to take in an electric
flash lamp battery. Two strips of
brass, C and D, are connected to the
battery. The lamp is tested by put-
tested in a short time by means of this
device. — Contributed by Abner B.
Shaw, North Dartmouth, Mass.
How to Make a Pin Ball
The pin ball shown in the illustra-
tion is made of calfskin modeling
leather and saddler's felt. Two pieces
of leather are used, and one piece of
felt, all three being cut circular to a
diameter of about 3 in. The felt may
be about % in. thick, and leather of a
deep brown color is recommended.
Moisten the leather on the back side
with as much water as it will take with-
out showing through the face. Lay it
on a sheet of heavy glass or copper, or
other hard, smooth, nonabsorbent ma-
terial. Place the design, which has
been previously prepared, over the face
of the leather. Indent the outline of
the design with a nutpick or any other
pointed tool that will not cut the
leather. Remove the pattern, and go
ting the metal end on the lower brass
strip and the side against the upper
one. A great number of lamps can be
Made of Lutlier and Felt
over the outline again to deepen the
tool marks.
The space between the border and
the design is now stamped with a cup-
pointed nail set, care being taken not
to cut the leather, especially if the tool
be new. Rubbing the edges of the nail
set over a piece of emery paper will
serve to dull them, if they are too
sharp.
When the designs have been worked
on the leather, paste or glue the leather
to the two sides of the belt, and punch
a hole in the center through which to
place a cord for hanging up the ball.
oog Ic
Cleaning Woodwork
An easy method of removing the
dirt and old varnish at the same time
around a kitchen sink is
told by a correspondent of
National Magazine as fol-
lows:
Make a soft soap from
common yellow laundry
soap, and when it is al-
most cold stir in one
tablespoonful of concen-
trated lye and one-half '
cupful of kerosene. When
the mixture becomes a
heavy paste, it is ready to
be spread over the wood-
work with a paint brush.
Allow the soap to remain
for a day and a half, then wash it off
with plenty of hot water. The wood-
work will be clean and ready for var-
nishing when it dries out.
Bill File Made of Corkscrews
An ordinary corkscrew makes a con-
venient file for small bills or memo-
randa. It may be thrown in any posi-
tion without danger of the papers slip-
ping off, A rack to hold a number of
files can be made of a wood strip (Fig.
1) fitted with hooks or screweyes cut
in a book shape, as shown in Fig. 2.
Ornamental Metal Inkstand
The metal required for making this
stand is ft in. in width and may be
Single bins may be separated from the
others and will remain separated as in
Fig. 3.— Contributed by James M.
Kane. Doylestown, Pa.
i DaUUs ttFttatt
steel, brass or copper. The shaping is
done as shown in Figs. 2 and 3. There
are, in all, eight pieces to be bent. The
two supports are each formed of one
piece of metal with the exception that
the end scroll pieces on the under side
are made separately. Eight rivets are
required to fasten the two horizontal
rings to the supports. The glass re-
ceptacle can be purchased at a station-
ery store.
Holding Eyeglasses Finn
Persons who wear noseglasses and
who are troubled with excessive per-
spiration, should chalk the sides of the
bridge of the nose before putting on
the glasses. The latter will then never
slip, even in the warmest weather. If
the chalk shows, use a pink stick, which
can be purchased from any art school
or supply store.
Substitute for Gummed Paper
Gummed paper is a great conven-
ience in the home especially for labels,
but it is not always found among the
household supplies. The gummed por-
tions of unsealed envelopes in which
circulars are received can be utilized
for this purpose. Quite a lat^e label
may be made from these envelope flaps.
lyy ^OO^
.glc
R^mirii^ a Broken Phoaograph
As I live a great distance from a
railroad station, I did not care to pay
the price, and await the time neces-
sary to deliver a new phonograph
spring to replace one that broke in my
machine, and I repaired the old one in
a creditable manner as follows:
I forced the two ends of the break
out where I could get at them, then
heated each end separately with a pair
of redhot tongs and turned a hook or
A Small Bench Lathe Hade of Pipe
Fittings
The most important machine in use
in the modern machine or wood-work-
ing shop is the lathe. The uses to
which this wonderful machine can be
put would be too numerous to describe,
but there is hardly a mechanical oper-
ation in which the turning lathe does
not figure. For this reason every ama-
teur mechanic and wood-worker who
has a workshop, no matter how small,
is anxious to possess a lathe of some
Kg. l-Dtuna of Latb>
lap on them the same as the joints ih
knock-down stovepipes. When the
ends were hooked together, the spring
worked as good as new. The heated
portion did not affect the strength of
the spring. — Contributed by Marion P.
Wheeler, Greenleaf, Oregon.
Clf you wish to know whether or not
the door or telephone bell rings dur-
ing your absence, place a little rider
of paper or cardboard on the clapper
in such a way that it will be dislodged
if the bell rings.
sort. A good and substantial home-
made lathe, which is suitable for wood-
turning and light metal work, may be
constructed from pipe and pipe fit-
tings as shown in the accompan/ing
sketch.
The bed of this lathe is made of «
fiece of 1-in. pipe, about 30 in. long,
t can be made longer or shorter, but
if it is made much longer, a larger
size of pipe should be used. The head-
stock is made of two tees, joined by a
standard long nipple as shown in Fig. 1.
All the joints should be screwed
l:v v^<v.^v_'Vl^_
up tight and then fastened with ^-in.
pins to keep them from turning. The
ends of the bed are fixed to the base-
board by means of elbows, nipples and
flanges arranged as shown. The two
bearings in the headstock are of brass.
The spindle hole should be drilled and
reamed after they are screwed in place
in the tee. The spindle should be of
steel and long enough to reach through
the bearing and pulley and have
enough end left for the center point.
The point should extend about 1^ in.
out from the collar. The collar can be
turned or shrunk on the spindle as de-
sired. The end of the spindle should
be threaded to receive a chuck.
The tailstock is also made of two
tees joined by a nipple. The lower tee
should be bored out for a sliding fit
on the bed pipe. The upper one should
be tapped with a machine tap for the
spindle which is threaded to lit it. The
spindle has a
handle fitted at
one end and has
the other end
bored out for the
Fi(. • tailstock center.
Hoth the Uilstock and the headstock
centerpoints should be hardened. A
clamp for holding the tailstock spindle
is made of a piece of strap iron, bent
and drilled as shown. It is held to-
gether by means of a small machine
screw and a knurled nut The tee
should have a slot cut in it about one*
half its length and it should also have
one bea.d filed away so that the clamp
will fit tightly over it.
The hand rest is made from a taper-
ing elbow, a tee and a forging. The
forging can be made by a blacksmith
at a small expense. Both the lower
tees of the hand-
rest and the tail-
stock should be
pii. > provided with
screw clamps to hold them in place.
The pulley is made of hardwood
pieces. % <>■* 1 *^- thick as desired. It
is fastened to the spindle by means of
a scrcvr, as shown in Fig. 2, or a key
,^n be used as well.
Care must be taken to get the tail-
stock center vertically over the bed,
else taper turning will result. To do
this, a straight line should be scratched
AoouSTABLC Blocks
on the top of the bed pipe, and when
the tailstock is set exactly vertical, a
corresponding line made on this. This
will save a great deal of time and
trouble and possibly some errors.
The two designs of chucks shown in
Figs. 3 and 4 are very easy to make,
and will answer for a great variety of
work.
As the details are clearly shown and
the general dimensions given on the
accompanying sketches, it should not
be a difficult matter for the young me-
chanic to construct this machine. —
Contributed by W. M. Held, Laporte,
Indiana.
Holder for Flexible Lamp-Cord
The holder is made of a round stick
— a piece of a broom handle will do — as
shown in Fig. 1. It is about 1 in. long
with two notches cut out for the strands
of the cord. These holders are easily
made and will answer the purpose al-
most as well as the ones made in porce-
lain. Painting or enameling will im-
prove not only their appearance, but
also their insulating properties. Sev-
eral of them can be used along a line,
as shown in Fig. 3. — Contributed by
M. Musgrove, Boi«sevaic Man.
.iz.cbv^iOOglc
Support for Double Clotheslines
Anyone using a double clothesline
over pulleys will find the arrangement
shown in Fig, 1 for supporting the
lower line quite convenient. The sup-
port is made of a piece of %-in. square
or round wood which has a screw-eye
turned into each end. The line is run
through these screw-eyes as shown in
Fig. 2.— Contributed by W. W. Up-
DeGraff, Fruitvale, Ca!.
Hot Pan or Plate Lifter
Unless a person uses considerable
caution, bad bums may be suffered
when taking hot pies iTom an oven.
If one reaches in and takes hold of the
pie pan with a cloth, the arm is liable
to touch the oven door and receive a
LUtet m PI* Pas
bam. To obviate this, I made the de-
vice shown in the sketch for lifting hot
pie pans and plates. The handle is of
pine about 18 in. long, and the two
loops are made of heavy wire. The
ends of the first loop of wire are put
through the handle from the back, as
shown, and then bent so as to stand
out at an angle. The second loop is
hinged to swing free on the opposite
side of the handle. In use, the hinged
side of the loop is dropped under one
edge of a plate or pan and the rigid
loop is then hooked under the oppo-
site side. The weight of the pan or
dish draws the loops together and
there is little or no danger of a spill.
The same lifter will pick up any size
of plate or pan from a saucer to the
largest pie plates.^^^ontributed by E.
J. Qine, Ft. Smith, Ark.
Weighting Indian Clubs
An ordinary Indian club can be fixed
so that different weights may be had
without changing
clubs. Each club is
bored to receive lead
washers which are held
in place by a spiral
spring. A bolt is run
through from the
handle end and fastened
with a round nut. The
lead washers and spring
slip over the bolt as
shown in the illustra-
tion. Changing the
number of washers
changes the weight of
the club. — Contributed
by Walter W. White,
Denver, Colo.
Venting a Funnd
When using a tight-fitting funnel in
a small-neck bottle, trouble is usually
experienced by the air causing a spill.
This can be easily remedied by split-
ting a match in half and tying the parts
on the sides of the stem with thread. —
Contributed by Maurice Baudier, New
Orleans, La.
A screw may be turned into hard-
wood easily, by boring a small hole
and lubricating the screw threads with
soft SOAPk
ly V^JV_^V_'V1^_
To Hake "Centering" Unnecessary
For drilling a hole in a chucked
piece, centering is just one operation
too many, if this method is followed :
First, face off the end of the piece,
making a true spot at least as big as the
diameter of the drill. Put a center
punch mark where the tool lines indi-
cate the center of revolution. This
serves as a rough guide for placing the
drill between the tailstock center and
the work as usual. Clamp a tool in the
tool-post and, on starting the lathe,
bring it in contact with the drill and
keep it firmly so until the drill is in
fully up to the lips. This prevents the
drill from wobbling, and when once in
true up to its size, it cannot change any
more than under any other starting
conditions. After being entered, the
drill does not need the tool, which
should be backed out of contact.
Fountain Pen Cap Used as a Ruler
When it is necessary to draw a short
line and there is no ruler at hand, take
RuUds LIqm
off the cap of your fountain pen and
use it as a ruler. If the cap is htted
with a retaining clip, all the better, as
this will prove a safeguard against
slipping.
Vanishing Handkerchief Trick
The necessary articles used in per-
forming this trick are the handkerchief,
SIO i'i vanish-
I ill ing wand, a
I 11 l<^n g piece
B Ci 11 oi glass tub-
ing, about
*4 in- shorter
than the
wand, and a
paper tube
closed at one
end and
covered with
a cap at the
other, says
the Sphinx.
The hand-
kerchief rod,
shown at C,
* " c o is concealed
in the paper tube A before the perform-
ance. The glass tube B, after being
shown empty, is put into the paper tube
A, so that the handkerchief rod now is
within it, unknown to the spectators.
The handkerchief is then placed over
the opening of the tube and pushed in
by means of the wand. In doing this,
the handkerchief and the rod are
pushed into the wand, as shown in D.
•After the wand is removed, the cap is
placed over the paper tube, and this
given to someone to bold. The com-
mand for the handkerchief to vanish
is given, and it is found to be gone
when the glass tube is taken out of the
paper cover. This is a novel way of
making a handkerchief vanish. It can
be used in a great number of tricks,
and can be varied to suit the per-
former.
Removing Glass Letters from Windows
Glass letters are removed in the same
way as metal letters, by applying caus-
tic soda or potash around the edges of
the letters. As the cement softens,
manipulate the point of a pocket knife
under the edges of the letter until the
caustic works completely under and
makes it easy to lift the letters. With
care and patience, every letter may be
thus taken off without breakage.
joglc
A Guitar That Is Easy to Make
A guitar having straight lines, giv-
ing it an old-fashioned appearance,
can be made by the home mechanic,
and if care is taken in selecting the
material, and having it thoroughly sea-
I ol Oulur
soned, the finished instrument will
have a fine tone. The sides, ends and
bottom are made of hard wood, prefer-
ably hard maple, and the top should*
be made of a thoroughly seasoned
piece of soft pine. The dimensioned
pieces required are as follows:
lToo.AbTl«bTl7in.
IBottom. Abvl4bTl7la.
lSId«.AbT3KbTl6Kio
1 End, A bT 3k br 13H In.
1 Eod. X br 3ti bT 9K In.
INectlbTZAbTlSMiu.
1 Finieiboard. A br 2H by 16 Id.
'inieiboard.
Cut the fingerboard tapering and
fasten pieces cut from hatpins with
small wire staples for frets. All di-
mensions for cutting and setting are
shown in the sketch. The neck is cut
tapering from G to F and from J to F,
with the back side rounding. A draw-
knife is the proper tool for shaping the
neck. Cut a piece of hard wood, '^ in.
square and 1% in, long, and glue it to
the neck at F. Glue the fingerboard
to the neck and hold it secure with
clamps while the glue sets.
The brace at D is 1 in. thick, cut to
any shape desired. The sides are
glued together and then the front is
glued on them. Place some heavy
weights on top and give the glue time
to dry. Fasten pieces of soft wood in
the comers for braces. Glue the neck
to the box, making it secure by the
addition of a carriage bolt at A,
A small block C is glued to the end to
reinforce it for the bolt. Glue strips
of soft wood, as shown by K, across
the fron* and back to strengthen them.
The ba:k is then glued on and th«
outside smoothed with sandpaper.
Make the bottom bridge by using
an old hatpin or wire of the same size
for E secured with pin staples. Glue
the bridge on the top at a place that
will make the distance from the bridge
F to the bottom bridge E just 24 in.
This dimension and those for the frets
should be made accurately. Six holes,
-?g in. in diameter, are drilled in the
bottom bridge for pins. The turning
plugs B and strings can be purchased
at any music store. — Contributed by
J. H. Stoddard, Carbondale. Pa.
Greasing the Front Wheels oi an
Automobile
The front wheel bearings of an au-
tomobile can be greased without re-
moving the wheels in the following
manner: Remove the hub caps and
fill them with heavy grease and then
screw them in place. Continue this
operation until the grease is forced be-
tween all the bearings and out through
the small clearance on the opposite side
of the wheels. This should be done
at least once every month to keep bear-
ings well lubricated and free from grit.
Dirt cannot enter a well filled bearing
as easily as muddy water can enter a
dry bearing. — Contributed by Chas. E.
Frary, Norwalk, O.
dMold on wallpaper can be removed
at once by applying a solution of 1
part salicylic acid in 4 parts of 95-per-
cent alcohol.
d by Google
Tb* Piper Boit I* Ufht nd Bur <o Propel
HOW TO MAKE A PAPER BOAT
A Light Boat That Can Be Easily Carried
Now you might think it absurd to
advise making a paper boat, but it is
not, and you will find it in some re-
spects and for some purposes better
than the wooden boat. When it is com-
pleted you will have a canoe, probably
equal to the Indian's bark canoe. Not
only will it serve as an ideal fishing
boat, but when you want to combine
hunting and fishing you can put your
boat on your shoulders and carry it
from place to place wherever you
want to go and at the same time carry
your gun in your hand. The material
used in its construction is inexpensive
and can be purchased for a few dol-
lars.
Make a frame (Fig. 1) on which to
stretch the paper. A board 1 in. thick
and about 1 ft. wide and 11% ft. long
is used for a keel, or backbone, and is
cut tapering for about a third of its
length, toward each end, and beveled
on the outer edges {A, Fig. 3). The
cross-boards (B, B, Fig. 2) are next
sawed from a pine board 1 in. thick.
Shape these as shown by A, Fig. 4, 13
in. wide by 26 in. long, and cut away in
the center to avoid useless weight. Fas-
ten them cross-wise to the bottom-*
board as shown in Fig. 1 and 2, with
long stout screws, so as to divide the
keel into three nearly equal parts. Then
add the stem and stern pieces (C, C,
Fig. 2), These are better, probably,
when made of green elm. Screw the
pieces to the bottom-board and bend
them, as shown in Fig. 2, by means of
a string or wire, fastened to a nail
driven into the bottom. Any tough,
light wood that is not easily broken
when bending will do. Green wood is
preferable, because it will retain the
shape in which it has been bent better
after drying. For the gunwales (a,
a. Fig. 3), procure at a carriage factory.
lUiiiJil!^"!!*
Digitized by VjOOQIC
or other place, some light strips of ash,
% in. thick. Nail them to the cross-
boards and fasten to the end pieces
(C, C) in notches, by several wrap-
pings of annealed iron wire or copper
,wire, as shown in Fig. 3, Copper wire
is better because it is less apt to rust.
For fastening the gunwales to the
crossboards use nails instead of screws,
because the nails are not apt to loosen
and come out. The ribs, which are
easily made of long, slender switches of
osier willow, or similar material, are
next put in, but before doing this, two
strips of wood (b, b. Fig. 3) should be
bent and placed as in Fig. 3. They are
used only temporarily as a guide in put-
ting in the ribs, and are not fastened,
the elasticity of the wood being suffi-
cient to cause them to retain their po-
sition. The osiers, may average a lit-
tle more than ^ in. in thickness and
should be cut, stripped of leaves and
bark and put in place while green and
fresh. They are attached to the bottom
by means of shingle nails driven
through holes previously made in them
with an awl, and are then bent down
until they touch the strips of ash (b,
b. Fig. 3), and finally ciit off even with
the tops of the gunwales, and notched
at the end to receive them (B, Fig. 4),
Between the cross-boards the ribs are
placed at intervals of 2 or 3 in., while
in other parts they are as much as 6
or 6 in. apart. The ribs having all been
fastened in place as described,
the loose strips of ash (b, b.
Fig. 3) are withdrawn and the
framework will appear some-
what as in Fig, 1. In order
to make all firm and to prevent
the ribs from changing posi-
tion, as they are apt to do, buy
some split cane or rattan, such
as is used for making chair-
bottoms, and, after soaking it
in water for a short time to ren-
der it soft and pliable, wind it
tightly around the gunwales
and ribs where they join, and
also interweave it among the
ribs in other places, winding it
about them and forming an
irregular network over the
whole frame. Osiers probably
make the best ribs, but twigs
of some other trees, such as
hazel or birch, will answer nearly as
well. For the ribs near the middle of
the boat, twigs 5 or 6 ft. long are re-
quired. It is often quite difficult to
get these of ' sufficient thickness
throughout, and so, in such cases, two
twigs may be used to make one rib,
fastening the butts side by side on
the bottom-board, and the smaller ends
to the gunwales, as before described.
In drying, the rattan becomes very
tight and the twigs hard and stiff.
The frame-work is now complete and
ready to be covered. For this purpose
buy about 18 yd. of very strong wrap-
ping-paper. It should be smooth on the
surface, and very tough, but neither
stiff nor very thick. Being made in
long rolls, it can be obtained in almost
any length desired. If the paper be 1
yd, wide, it will require about two
breadths to reach around the frame in
the widest part. Cut enough of the roll
to cover the frame and then soak it for
a few minutes in water. Then turn
the frame upside down and fasten the
edges of the two strips of paper to it, by
lapping them carefully on the under
side of the bottom-board and tacking
them to it so that the paper hangs down
loosely on all sides. The paper is then
trimmed, lapped and doubled over as
smoothly as possible at the ends of the
frame, and held in place by means of
small clamps. It should be drawn tight
along^. the edges, trimmed and doubled
down over the gunwale, where it is
firmly held by slipping the strips of ash
(b, b) just inside of the gunwales into
notches which should have been cut at
the ends of the cross-boards. The
shrinkage caused by the drying will
stretch the paper tightly over the
framework. When thoroughly dry,
varnish inside and out with asphaltum
varnish thinned with turpentine, and
as soon as that has soaked in, apply a
second coat of the same varnish, but
with less turpentine ; and finally cover
the laps or joints of the paper with
pieces of muslin stuck on with thick
varnish. Now remove the loose strips
of ash and put on another layer of
paper, fastening it along the edge of
the boat by replacing the strips as be-
fore. When the paper i^ dry, covir the
laps with muslin as was done with the
first covering. Then varnish the whole
outside of the boat several times until
it presents a smooth shining surface.
Then take some of the split rattan and,
after wetting it, wind it firmly around
both gunwales and inside strip, pass-
ing it through small holes punched in
the paper just below the gunwale, until
the inside and outside strips are bound
together into one strong gunwale.
Then put a piece of oil-cloth in the
boat between the cross-boards, tacking
it to the bottom-board. This is done to
protect the bottom of the boat.
Now you may already have a canoe
that is perfectly water-tight, and steady
in the water, if it has been properly
constructed of good material. If not,
however, in a few days you may be
disappointed to find that it is becoming
leaky. Then the best remedy is to
cover the whole boat with unbleached
muslio, sewed at the ends and tacked
along the gunwales. Then tighten it
by shrinking and finally give it at least
three coats of a mixture of varnish and
paint. This will doubtless stop the
leaking entirely and will add but little
to either the weight or cost.
Rig the boat with wooden or iron
rowlocks (B, B, Fig. 6), preferably
iron, and light oars. You may put in
OS for ■ Hunt
several extra thwarts or cross-sticks,
fore and aft, and make a movable seat
(A, Fig. 5.) With this you will doubt-
less find your boat so satisfactory that
you will make no more changes.
For carrying the boat it is convenient
to make a sort of short yoke (C, Fig.
5), which brings all the weight upon
the shoulders, and thus lightens the
labor and makes it very handy to carry.
To Hang Heavy Things on a Nail
Boys will find many places around
the house, where a
hook to hang things
-on will be a great
tjconvenience. Instead
Dof buying hooks use
wire nails, and if
driven as shown in
the cut, they will
I support very heavy
' weights. Drive the
lower nail first
cbyGOOgIC
A Home-Hade Elderberry Huller
As we had only one day to pick
elderberries, we wanted to get as many
of them as we could in that time. We
could pick them faster than they could
keep the frame on the top edge of the
box. The top view of the frame is
shown in Fig. 1 and the end in Fig. 5,
and the box on which the frame rests
in Fig, 3, The actual size of the wire
mesh used is shown in Fig. 4. One
person could hull with this huller as
many berries as two persons would
?ick. — Contributed by Albert Niemann,
'ittsburg, Pa,
(
(
Datailt ol the ffldecbenT Hnlltr
be hulled by hand so we made a huller
to take along with us to hull the ber-
ries as fast as they were picked. We
procured a box and made a frame. Fig.
1, to fit it easily, then made another
frame the same size and put a piece of
wire mesh between them as shown in
Fig. 3, allowing a small portion of the
mesh to stick out of the frames. The
top frame would keep the berries from
rolling or jumping off, and the bottom
frame kept the wire mesh and frame
from being shaken off the box. The
projecting edges of the mesh would
How to Make a Bulb on a Glan Tube
As a great many persons during the
winter months are taking advantage of
the long evenings to experiment in one
way or another, the following method
of forming bulbs on glass tubes may
be of interest, A common method is
to heat the part to be formed and by
blowing in one end of the tube grad-
ually expand the glass. This way has
its drawbacks, as many are not suf-
ficiently familiar with the work to
blow a uniform blast, and the result is,
a hole is blown through the side of the
tube by uneven heating or blowing.
A good way to handle this work, is
to take the tube and 1 or 2 in. more in
length than the finished article is to be
and place one end over an alcohol
flame, and by holding a spare piece of
tubing against the end allow them
both to come to a melting heat, then
pull apart and instead of breaking off
the long thread thus formed, simply
hold it in the flame at an angle of 45
deg. and melt it down and close the
end at the same time. Oose the other
end with the same operation ; this
makes the tube airtight.
Gradually heat the tube at the point
where the bulb is to be formed, slowly
turning the tube to get a uniform heat.
The air inside of the tube becoming
heated will expand, and the glass, be*
ing softer where the flame has been
applied, will be pushed out in the shape
of a bulb. A great deal of care should
be taken not to go to extremes, as the
bulb will burst with a loud report if
the heat is applied too long. The best
results are obtained by heating the
glass slowly and then the butb can be
formed with re^Iarity. This is an
l:v v^<v.^v_'viv_
easy way to make a. thermometer tube.
After the bulb is formed, the other end
of the tabe can be opened by heating,
drawing out and breaking the thread
like glass. — Contributed by A. Oswald.
center along concentric rings outward,
then reverse.
The candle holders may have ^o,
three, four, or six arms, and are bent
to shape by means of the round-nosed
How to Make a Sconce
A sconce is a candlestick holder, so
made that it has a reflector of brass or
copper and is to hang upon the wall.
The tools necessary are a riveting
hammer, file, metal shears, rivet punch,
flat and round-nosed pliers, screwdriver
and sheet brass or copper No, 83 gauge.
To make the sconce proceed as fol-
lows: First, cut off a piece of brass so
that it shall have ^ in. extra metal all
around ; second, with a piece of carbon
paper, trace upon the brass lines that
shall represent the margin of the sconce
proper, also trace the decorative de-
sign : third, with a nailset make a series
of holes in the extra margin about %
in. apart and large enough to take in a
%-in. thin screw; fourth, fasten the
metal to a thick board by inserting
screws in these holes; fifth, with a
twenty-penny wire nail that has had
the sharpness of its point filed off,
stamp the background of the design
promiscuously. By holding the nail
about % in. above the work and strik-
ing it with the hammer, at the same
time striving to keep its point at }^ in,
above the metal, very rapid progress
can be made. This stamping lowers
the background and at the same time
raises the design. Sixth, chase or
stamp along the border of the design
and background using a nail filed to
a chisel edge. This is to make a clean
sharp division between background and
design. Seventh, when the stamping
is complete remove the screws and
metal from the board and cut off the
extra margin with the metal shears.
File the edges until they are smooth to
the touch.
The drip cup is a piece of brass cut
circular and shaped by placing the
brass over a hollow in one end of a
block. Give the metal a circular mo-
tion, at the same time beat it with a
round-nosed mallet Work from the
RIvMtoc
pliers. The form of the brackets which
support the drip cups may be seen in
the illustration.
Having pierced the bracket, drip cup,
and holder, these three parts are riveted
together as indicated in the drawing.
It will be found easier usually if the
holder is not shaped until after the
riveting is done. The bracket is then
riveted to the back of the sconce. Small
copper rivets are used.
It is better to polish all the pieces
before fastening any of them togclher.
Metal polish of any kind will do. After
the parts have been assembled a tac-
(|uer may be applied to keep the metal
from tarnishing.
d by Google
How To Make a Hectograph
A hectograph is very simply and eas-
ily made and by means of it many
copies of writing can be obtained from
a single original.
Make a tray of either tin or paste-
the copy face down upon it and smooth
down, being careful to exclude a!l air
bubbles and not shifting the paper.
Leave it nearly a minute and raise one
comer and strip it from the pad, where
will remain a reversed copy of the in-
scription.
Immediately lay a piece of writing
paper of the right size on the pad,
smooth it down and then remove as be-
fore. It will bear a perfect copy of the
original. Repeat the operation until
the number of copies desired is ob-
tained or until the ink on the pad is
exhausted. Fifty or more copies can
be obtained from a single original.
When through using the hectograph
wash it off with a moist sponge, and it
will be ready for future use. If the
surface is impaired at any time it can
be remelted in a water bath and poured
into a tray as before, if it has not ab-
sorbed too much ink.
board, a little larger than the sheet pf
paper you ordinarily use and about ^
in. deep. Soak 1 oz. of gelatine in cold
water over night and in the morning
pour off the water. Heat 6^ oz, of
glycerine to about 200 deg. F. on a
water bath, and add the gelatine. This
should give a clear glycerine solution
of gelatine.
Place the tray so that it is perfectly
level and pour in the gelatinous com-
position until it is nearly level with
the edge of the tray. Cover it so the
cover does not touch the surface of the
composition and let it stand six hours,
when it will be ready for use.
Make the copy to be reproduced on
ordinary paper with aniline ink ; using
a steel pen, and making the lines rather
heavy so they have a greenish color in
the light. A good ink may be made of
methyl violet 2 parts, alcohol 2 parts,
sugar 1 part, glycerine 4 parts, and wa-
ter 24 parts. Dissolve the violet in the
alcohol mixed with the glycerine; dis-
solve the sugar in the water and mix
both solutions.
When the original copy of the writ-
ing is ready moisten the surface of the
hectograph slightly with a sponge, lay
How to Make a Sail^MUobile
By Pnnh Hnlferd, Sbilob. H. J.
I had read of the beach automobiles
used on the Florida coast ; they were
like an ice boat with a sail, except they
had wheels instead of runners. So I
set to work to make something to take
me over the country roads.
I found and used seven fence pickets
for the frame work, and other things
as they were needed. I spliced two
rake handles together for the mast,
winding the ends where they came to-
gether with wire. A single piece would
be better if you can get one long
enough. The gaff, which is the stick
to which the upper end of the sail is
fastened, is a broomstick. The boom,
the stick at the bottom of the sail, was
made of a rake handle with a broom-
stick spliced to make it long enough.
Mother let me have a sheet, which I
put down on the floor and cut in the
shape of a mainsail. The wind was
the cheapest power to be found, thus
it was utilized; the three wheels were
cast-off bicycle wheels.
I steer with the front wheel, which
was the front wheel of an old bicycle
ly v^<v.^v_'Vl^_
with the fork left on. The axle be- were the tools used. Slats made the
tween the rear wheels is an iron bar seat and a cushion from the house made
which cost me 15 cents, and the pulley it comfortable, and in a week every-
SailomobUa for Um on Coimtty Boad*
which raises and lowers the sail cost thing was ready for sailing.
5 cents. Twenty cents was all I spent. Once it was started with only my lii-
all the rest I found. tie cousin in it and I had to run fasi
A saw, hammer, and brace and bit to catch up.
d by Google
A Home-Made Magic Lantern
The essential parts of a magic lantern
are a condensing lens to make the beam
of light converge upon the slide to
illummate it evenly, a projecting lens
T
rf-------:k
'i
f m I
i_„._i_a.a-
IiUitani HouM
with which to throw an enlarged pic-
ture of the illuminated slide upon a
screen and some appliances for pre-
serving the proper relation of these
parts to each other. The best of
materials should be used and the parts
put together with care to produce a
clear picture on the screen.
The first to make is the lamp house
or box to hold the light. Our illustra-
tion shows the construction for ajj
electric light, yet the same box may be
used for gas or an oil lamp, provided
the material is of metal, A tin box
having dimensions somewhere near
those given in the diagrammatic sketch
may be secured from your local grocer,
but if such a box is not found, one can
be made from a piece of tin cut as
shown in Fig, 1, When this metal is
bent at right angles on the dotted lines
it will form a box as shown in Fig. 8
which is placed on a baseboard, ^ tc
%. in, thick, 8 in. wide, and 14 in. long.
This box should be provided with a
reflector located just back of the lamp.
Procure a plano-convex or a bi-con- '
vex 6-in. lens with a focal length of
from 15 to 20 in. and a projecting lens
2 in. in diameter with such a focal
length that will give a picture of the
required size, or a lens of 12-in. focus
enlarging a 3-in. slide to about 6 ft. at
a distance of 24 ft.
The woodwork of the lantern should
be of %-in,, well seasoned pine, white
wood or walnut and the parts fastened
together with wood screws, wire brads,
or glue, as desired. The board in which
to mount the condensing lens is 16 in.
wide and 15 in, high, battened on both
ends to keep the wood from warping.
The board is centered both ways, and,
at a point 1 in. above the center, de-
scribe a 9-in. circle with a compass and
saw the wood out with a scroll or key-
hole saw. If a small saw is used, and
the work carefully done, the circular
piece removed will serve to make the
smaller portion of the ring for holding
the condensing lens. This ring is made
up from two rings, A and B, Fig. 3.
The inside and outside diameters of the
ring B are % in, greater than the cor-
responding diameters of ring A, so
when fastened together concentrically
an inner rabbet is formed for the recep-
tion of the lens and an outer rabbet to
fit against the board C jn and against
which it rotates being held in place by
buttons, DD.
Haflc Lutsrn TsUili
.^r^.
DioilizedbjGOOglC
A table, E, about 2 ft. long is fas-
tened to the board C with brackets F
and supported at the outer end with a
standard. The slide support, G, and the
lens slide, H, are constructed to slip
easily on the table, E, the strips II
serving as guides. Small strips of tin,
JjF, are bent as shown and fastened at
the top and bottom of the rectangular
opening cut in the support G for hold-
ing the lantern slides.
All the parts should be joined to
gether snugly and the movable parts
made to slide freely and when all is
complete and well sandpapered, apply
two coats of shellac varnish. Place
the lamphouse on the bottom board be-
hind the condensing lens and the
lantern is ready for use.
The proper light and focus may be
obtained by slipping the movable parts
on the board E, and when the right
position is found for each, all lantern
slides will produce a clear picture on
the screen, if the position of the lantern
and screen is not changed. — Con-
tributed by Stuart Mason Kerr, St.
Paul, Minn.
A Quickly Made Lamp
A very simple tamp can be made
from materials which are available in
practically every household in the fol-
lowing manner:
A cheap glass
tumbler is partly
filled with water
and then about
y2 in. of safe,
light burning oil,
placed on the
water. Cut a
thin strip from
an ordinary cork
^ and make a hole
" in the center to
carry a short
piece of wick.
The wick should
be of such a length as to dip into the
oil, but not long enough to reach the
water. The upper surface of the cork
may be protected from the flame with
3 small piece of tin bent over the edges
and a ho!e punched in the center for
the wick. The weight of the tin will
force the cork down into the oil. The
level of the oil should be such as to
make the flame below the top of the
tumbler and the light then will not be
blown out with draughts. The ar-
rangement is quite safe as, should the
glass happen to upset, the water at
once extinguishes the flame. — Contrib-
uted by G. P. B.
How to Make a Paper Aeroplane
A very interesting and instructive
toy aeroplane can be made as shown in
the accompanying illustrations. A sheet
\
\
^-
^^
F»a
7\ n
<-
^y
Folding the P>p*r
of paper is first folded. Fig. 1, then the
comers on one end are doubled over.
Fig. 2, and the whole piece finished up
and held together with a paper clip as
in Fig. 3. The paper clip to be used
should be like the one shown in Ftg. 4.
If one of these clips is not at hand,
form a piece of wire in the same shape,
as it will be needed for balancing pur-
poses as well as for holding the paper
together. Grasp the aeroplane between
the thumb and forefinger at the place
marked A in Fig. 3, keeping the paper
as level as possible and throwing it as
you would a dart. The aeroplane will
make an easy and graceful flight in a
room where no air will strike it — Con-
tributed by J. H, Crawford, Schenec-
tady, N. Y.
Banana oil or amyl acetate is a good
bronze liquid.
k)og Ic
A Wrestling Mat
The cost of a wrestling mat is so
great that few small clubs can afford to
own one. As we did not see our way
clear to purchase such a mat, I made
one of six used bed mattresses (Fig. 1)
purchased from a second-hand dealer.
I ordered a canvas bag, 13 ft. 3 in. by
12 ft, 9 in., from a tent company, to
cover the mattresses. The bag con-
sisted of two pieces with the seam
along ?ach edge. The mattresses were
laid side by side and end to end and
the bag placed on and laced up as
shown in Fig. 2. — Contributed by Wal-
ter W. White, Denver, Colo.
A Pocket Voltammeter
Remove the works and stem from
a discarded dollar watch, drill two A-
in. holes in the edge, % in. apart, and
insert two binding-posts. Fig. 1, in-
sulating them from the case with card-
board. Fold two strips of light card-
board, % in. wide, so as to form two
oblong boxes, Yz in. long and ^ in.
thick, open on the edges. On one of
these forms wind evenly the wire taken
from a bell magnet to the depth of
% in. and on the other wind some 20-
gauge wire to the same depth. Fasten
the wire with gfummed label to keep
it from unwinding.
Glue the coils to the back of the
case and connect one wire from each
binding-post as shown in Fig. 2, while
the other two wires are connected to
an induction coil lead which is inserted
in the hole from which the .stem was
removed. Fasten a brass-headed tack
to the case at the point F with sealing
wax or solder and bend a wire in the
shape shown in Fig. 3 to swing freely
on the tack. Attach - piece of steel
rod, % in. long, in the center coil, C,
Fig. 2.
A rubber band, D, connects the steel
rod C with the top of the watch case.
The ends of the rubber are fastened
with .sealing wax. The rubber keeps
the pointer at zero or in the middle
of the scale. Do not use too strong
a rubber. A dial may be made by
cutting a piece of stiff white paper so
it will fit under the crystal of the watch.
An arc is cut in the paper, as shown in
Fig. 1, through which the indicator
works.
To calibrate the instrument, first
mark the binding-post A, which is con-
nected to the coil of heavy wire, for
amperes and the other post, V, to the
coil of small wire for volts. Connect
the lead and the post marked A to one.
two and three cells and each time mark
the place of the pointer on the dial.
Take corresponding readings on a
standard ammeter and mark the fig-
ures on the dial. The volt side of
the dial may be calibrated in the same
manner, using a voltmeter instead of
the ammeter. The place where the
VolUmmaler li
indicator comes to rest after discon-
necting the current is marked zero. —
Contributed by Edward M. Teasdale,
Warren, Pa.
d by Google
A Film Washing Trough
The washing of films without scratch-
ing them after they are developed
and fixed is very difficult in hot
weath-er. A convenient washing
trough for washing full length films is
shown in the accompanying sketch.
The trough must be made for the size
of the film to be washed. Cut a ^4-'"-
board as long as the film and a trifle
wider than the film's width. Attach
strips to the edges of the board to keep
the water from spilling over the sides.
Cut a hole in one side of a baking-
powder can about half way between
the top and bottom, large enough to
admit a fair-sized stream of water from
a faucet. Then solder the cover to the
can and punch a number of holes about
J^ in. apart along the opposite side
from where the large hole was cut.
Place this can on one end of the trough,
as shown, with the large hole up.
Some heavy wire bent in the shape
of a U and fastened to the under side
of the trough at the can end will fur-
nish supports to keep that end of the
trough the highest and place the open-
ing in the can close beneath the water
faucet A common pin stuck through
WmUbi a HtptiT* FOm
one end of the film and then in the
trough close to the can will hold it in
position for washing. Five minutes'
washing with this device is sufficient
to remove all traces of the hypo from
the film. — Contributed by M. M. Hunt-
ing, Dayton, O.
The Diving Bottle
This is a very interesting and easily
performed experiment illustrating the
transmission of pressure by liquids.
Take a wide- mouthed bottle and fill
almost full of water ; then into this bot-
tle place, mouth downward, a small vial
or bottle having just enough air in the
bottle to keep it barely afloat. Put a
sheet of rubber over the mouth of the
large bottle, draw the edge down over
the neck and wrap securely with a piece
of string thus forming a tightly
stretched diaphragm over the top.
When a finger is pressed on the rubber
izccbyGOOgIC
the small bottle will slowly descend
until the pressure is released when the
the small bottle is caused by the pres-
sure transmitted through the water,
thus causing the volume of air in the
small tube to decrease and the bottle
to descend and ascend when released as
the air increases to the original volume.
This experiment can be performed
with a narrow-necked bottle, provided
the bottle is wide, but not very thick.
Place the small bottle in as before, tak-
ing care not to have too much air in the
bottom. If the cork is adjusted prop-
erly, the bottle may be held in the
hand and the sides pressed with the
fingers, thus causing the small bottle
to descend and ascend at will. If the
small bottle used is opaque, or an
opaque tube such as the cap of a foun-
tain pen, many puzzling effects may
be obtained.— Contributed by John
small bottle will ascend. The moving of Shahan, Auburn, Ala.
How to Hake an Inexpensive
Wooden Pan
Select a nice straight-grained piece
of white pine about ^ in. thick, % in.
wide and 4 in. long. Lay out the
design desired and cut as shown in
Fig. 1, and then soak the wood in hot
water to make it soft and easy to split.
Cut the divisions very thin with a
sharp knife down to the point A, as
shown in the sketch, taking care not
to split the wood through the part left
for the handle. The fan is then fin-
ished by placing each piece over the
other as in Fig. 2. This will make a
very pretty ornament. — Contributed by
Fred W. Whitehouse, Upper Troy,
N. Y.
Cnttlag a* Wood ni Comptet* ?«a
Combination Telegraph and Tele-
phone Line
The accompanying diagrams show
connections for a short line system
rHB— -
1 1 TftANSMITTW
-t
— H&,
Wlriof DUiram
(metallic circuit) of telegraph where a
telephone may be used in combination
on the line. The telephone receivers
can be used both as receivers and trans-
mitters, or ordinary telephone trans-
mitters, induction coils and battery may
be used in the circuit with a receiver.
If a transmitter is used, its batteries
may be connected in circuit with a
common push button which is held
down when using the telephone. On a
1000-ft. line, four dry cells will be suffi-
cient for the telegraph instruments and
two cells for the telephone. — Contrib-
uted by D. W. Miller.
lOOglc
How io Make a Miniature V^Hndnull
The following descriptioD is how a
miniature windmill was made, which
gave considerable power for its size,
even in a light breeze. Its smaller
parts, such as blades and pulleys, were
constntcted of l-in. sugar pine on ac-
count of its softness.
The eight blades were made from
piece? 1 by 1^ by 12 in. Two opposite
edges were cut away until the blade
was about % in. thick. Two inches
tended to the ground. The 8^-in. pul-
ley, I, Fig. 1, was keyed to shaft C, as
shown in Fig. 4, The wire L was put
through the hole in the axle and the
two ends curved so as to pass through
the two holes in the pulley, after which
they were given a final bend to keep
the pulley in place. The method by
which the shaft C was kept from work-
ing forward is shown in Fig. 5. The
washer M intervened between the
'-.a "*^i
were left uncut at the hub end. They
were then nailed to the circular face
plate A, Fig. 1, which was 6 in, in di-
ameter and 1 in. thick. The center of
the hub was lengthened by the wooden
disk, B, Fig. 1, which was nailed to
the face plate. The shaft C, Fig. 1,
was V^-in. iron rod, S ft. long, and
turned in the bearings detailed in Fig.
2. J was a nut from a wagon bolt and
was placed in the bearing to insure easy
running. The bearing blocks were 3
in. wide, 1 in. thick and 3 in. high with-
out the upper half. Both bearings
were made in this manner.
The shaft C was keyed to the hub of
the wheel, by the method shown in
Fig. 3. A staple, K, held the shaft from
revolving in the hub. This method was
also applied in keying the 5-tn. pulley
F, to the shaft, G, Fig. 1, which ex-
bearing block and the wire N, which
was passed through the axle and then
bent to prevent its falling out. Two
washers were placed on shaft C, be-
tween the forward bearing and the hub
of the wheel to lessen the friction.
The bed plate D, Fig. 1. was 2 ft.
long, 3 in. wide and 1 in. thick and was
tapered from the rear bearing to the
slot in which the fan E was nailed.
This fan was made of ^-in. pine 18 by
12 in. and was cut the shape shown.
The two small iron pulleys with
screw bases, II, Fig. 1, were obtained
for a small sum from a hardware dealer.
Their diameter was 1^4 in. The belt
which transferred the power from shaft
C to shaft G was top string, with a
section of rubber in it to take up slack.
To prevent it from slipping on the two
oog Ic
wooden palleys a rubber band was
placed in the grooves of each.
The point for the swivel bearing was
determined by balancing the bed plate,
with all parts in place, across the thin
edge of a board. There a ^4-in. hole
was bored in which shaft G turned. To
lessen the friction here, washers were
placed under pulley F. The swivel
bearing was made from two lids of
baking powder cans. A section was cut
out of one to permit its being enlarged
enough to admit the other. The smaller
one, O, Fig. 6, was nailed top down,
with the sharp edge to the underside
of the bed plate, so that the H-ii- hole
for the shaft G was in the center. The
other lid, G, was tacked, top down also,
in the center of the board P, with brass
headed furniture tacks, R, Fig. 6, which
acted as a smooth surface for the other
tin to revolve upon. Holes for shaft
G were cut through both lids. Shaft
G was but % in. in diameter, but to
keep it from rubbing against the board
P, a ^-in. hole was bored for it,
through the latter.
The tower was made of four 1 by 1-
in. strips, 25 ft. long. They convei^ed
from points on the ground forming an
8-ft. square to the board P at the top
of the tower. This board was 12 in.
square and the comers were notched
to admit the strips as shown. Fig. 1.
Laths were nailed diagonally between
the strips to strengthen the tower later-
ally. Each strip was screwed to a stake
in the ground so that by disconnecting
two of them the other two could be
used as hinges and the tower could be
tipped over and lowered to the ground,
as, for instance, when the windmill
needed oiling. Bearings for the shaft
G were placed 6 ft. apart in the tower.
The power was put to various uses.
How to Make a Tdegn^h Listrument and Buzzer
The only expenditure necessary in
constructing this telegraph instrument
is the price of a dry eel!, providing one
has a few old materials on hand.
Procure a block of wood about 6 in.
long and 3 in. wide and take the coils
out of an old electric bell. If you have
no bell, one may be had at the dealers
for a small sum. Fasten these coils on
the blocks at one end as in Fig. 1.
Cut a piece of tin 2 in. long and % in.
wide and b^d it so the end of the tin
shown in the illustration. This com-
pletes the receiver or sounder.
To make the key, cut out another
piece of tin (X, Fig. 1) 4 in. long and
bend it as shown. Before tacking it
to the board, cut oft the head of a nail
and drive it in the board at a point
where the loose end of the tin will cover
it. Then tack the key to the board and
connect the wires of the battery as in
Fig. 1. Now, move the coils back and
forth until the click sounds just the way
Hama-Uadi Tcl((riph iBitnimctit
when fastened to the block will come
just above the core of the coil. Cut
another piece of tin 3 in. long and bend
it as shown at A, Fig. 2. Tack these
two pieces of tin in front of the coils as
you wish and you are ready to begin on
the Morse code.
When tired of this instrument, con-
nect the wire from the coils to the key
to point A and the one connected at
l:v v^<v.^v_'Vl^_
the point under the key to B, leaving
the other wire as it is. By adjusting
the coils the receiver will begin to
vibrate rapidly, causing a buzzing
sound. — Contributed by John R. Mc-
Conn«ll.
How To Make a Water Bicycle
Water bicycles afford fine sport, and,
like many another device boys make,
can be made of material often cast off
by their people as rubbish. The prin-
cipal material necessary for the con-
struction of a water bicycle is oil bar-
rels. Flour barrels will not do — they
are not strong enough, nor can they be
made perfecUy airtight. The grocer
can furnish you with oil barrels at a
very small cost, probably let you have
them for making a few deliveries for
him. Three barrels are required for
the water bicycle, although it can be
made with but two. Figure 1 shows
the method of arranging the barrels;
after the manner of bicycle wheels.
Procure an old bicycle frame and
make for it a board platform about 3
ft. wide at the rear end and tapering
to about 2 ft. at the front, using cleats
to hold the board frame, as shown at
Water Bicrcia ComplcM
the shaded portion K. The construc-
tion of the barrel part is shown in Fig.
2. Bore holes in the center of the heads
of the two rear barrels and also in the
heads of the first barrel and put a shaft
of wood through the rear barrels' and
one through the front barrel, adjusting
the side pieces to the shafts, as indi-
cated.
Next place the platform of the bicy-
cle frame and connections thereon. Go-
ing back to Fig. 1 we see that the driv-
ing chain passes from the sprocket
driver L of the bicycle frame to the
place downward between the slits in
the platform to the driven sprocket on
the shaft between the two barrels.
Thus a center drive is made. The rear
barrels are fitted with paddles as at M,
consisting of four pieces of board nailed
_J1_
Burd Float for Blcrcl*
and cleated about the circumference of
the barrels, as shown in Fig. 1.
The new craft is now ready for a first
voyage. To propel it, seat yourself or.
the bicycle seat, feet on the pedals, just
as you would were you on a bicycle
out in the street. The steering is ef-
fected by simply bending the body to
the right or left, which causes the craft
to dip to the inclined side and the affair
turns in the dipped direction. The
speed is slow at first, but increases a<i
the force is generated and as one he-
comes familiar with the working of the
affair. There is no danger, as the air-
tight barrels cannot possibly sink.
Another mode of putting together
the set of barrels, using one large one
in the rear and a small one in the front
is presented in Fig. 3. These two bar-
rels are empty oil barrels like the
others. The head holes are bored and
the proper wooden shafts are inserted
and the entrance to the bores closed
tight by calking with hemp and putty
or clay. The ends of the shafts turn
in the wooden frame where the re-
quired bores are made to receive the
same. If the journals thus made are
well oiled, there will not be much fric-
joog Ic
tion. Such a frame can be fitted with
a platform and a raft to suit one's in-
dividual fancy built upon it, which can
ADothn Type ol FlMt
be paddled about with ease and safety
on any pond. A sail can be rigged up
by using a mast and some sheeting; or
even a little houseboat, which will give
any amount of pleasure, can be built.
How To Make a Small Searchlight
The materials required for a small
searchlight are a 4-volt lamp of the
loop variety, thin sheet brass for the
cylinder, copper piping and brass tub-
ing for base. When completed the
searchlight may be fitted to a small
boat and will afford a great amount of
pleasure for a
little work, cr
it maybe put to
other uses if de-
sired.
Make a cylin-
der of wood of
the required
size and bend a sheet of thin brass
around it Shape small blocks of box-
wood, D, Fig. 1, to fit the sides and
pass stout pieces of brass wire through
the middle of the blocks for trunnions.
Exactly through the middle of the sides
of the cylinder drill holes just so large
that when the blocks containing the
trunnions are cemented to the cylinder
there is no chance of contact between
cylinder and trunnion, and so creating
a false circuit.
The trunnion should project slightl)^
into the cylinder, and after the lamp
has been placed in position by means
of the small wood blocks shown in Fig.
1, the wires from the lamp should be
wldered to the trunnions. It is best to
solder the wire to the trunnions be-
fore cementing the side blocks inside
the cylinder.
Turn a small circle of wood, A, Fig.
2, inside the cylinder to fit exactly and
fasten to it a piece of mirror, C, Fig. 2,
exactly the same size to serve as a re-
flector. Painting the wood with white
enamel or a piece of brightly polished
metal will serve the purpose. On the
back of the piece of wood fasten a small
brass handle, B, Fig. 2, so that it may
readily be removed for cleaning.
In front of cylinder place a piece of
magnifying glass for a lens. If a piece
to fit cannot be obtained, fit a glass
like a linen tester to a small disc of
wood or brass to fit the cylinder. If
magnifying glass cannot be had, use
plain glass and fit them as follows:
Make two rings of brass wire to fit
tightly into the cylinder, trace a circle
(inside diameter of cylinder) on a piece
of cardboard ; place cardboard on glass
and cut out glass with a glass cutter ;
break off odd comers with notches on
cutters and grind the edge of the glass
on an ordinary red brick using plenty
of water. Place one brass ring in cyl-
inder, then the glass disc and then Uie
other ring.
For the stand fill a piece of copper
piping with melted rosin or lead. When
hard bend the pipe around a piece of
wood which has been sawed to the
shape of bend desired. Then melt out
the rosin or lead. Alake an incision
with a half-round file in the under side
of the tube for the wires to come
through. Make the base of wood as
shown in Fig. 1. One-half inch trwa
ly v^<v.^v_'Vl^_
the top bore a hole large enough to
admit the copper pipe and a larger hole
up the center to meet it for the wires
to come down.
If it is desired to make the light very
complete, make the base of two pieces
of brass tube — one being a sliding fit
in the other and with projecting pieces
to prevent the cylinder from going too
far. The light may then be elevated
or lowered as wished. On two ordi-
nary brass terminals twist or solder
some flexible wire, but before doing so
fix a little bone washer on the screws
of the terminal so as to insulate it from
the tube. When the wires have been
secured to the terminals cover the joint
with a piece of very thin India rubber
tubing, such as is used for cycle valves.
The two wires may now be threaded
down the copper tube into the base,
and pulled tight, the terminals firmly
fixed into the tubes ; it too small, some
glue will secure them. To get the cyl-
inder into its carriage, put one trun-
nion into the terminal as far as it will
go and this will allow room for the
other trunnion to go in its terminal.
Electric Alarm that Rings a Bell and
Turns on a Light
The illustration shows an alarm clock
connected up to ring an electric bell,
and at the same time turn on an electric
light to show the time. The parts in-
dicated are as follows : A, key of alarm
clock; B, contact post, 4 in, long; C,
shelf, 514 by 10 in. ; D, bracket ; E, elec-
tric bulb (SVa volts) ; S, brass strip, 4^
in. long, % in. wide and 1/16 in. thick ;
T, switch; F, wire from batteries to
switch ; G, wire from bell to switch ;
H, wire from light to switch; I, dry
batteries ; J, bell ; X, point where a
splice is made from the light to wire
leading to batteries from brass strip
under clock. Push the switch lever to
the right before retiring.
To operate this, set alarm key as
shown in diagram, after two turns have
been made on the key. When alarm
goes off, it turns till it forms a con-
nection by striking the contact post and
starts the electric bell ringing. Throw
lever off from the right to center, which
stops bell ringing. To throw on light
throw levers to the left. The bell is
then cut out bat the light remains on
till lever is again thrown in the center.
Datalto of Alarm Conitnaetlaa
In placing clock on shelf, after set-
ting alarm, be sure that the legs of
clock are on the brass strip and that
the alarm key is in position so it will
come in contact with the contact post
in back of clock. The contact post may
be of V4-in. copper tubing, or ^-in.
brass rod.
The advantage of this is that one can
control the bell and light, while lying
in bed, by having the switch 00 the
baseboard, near the bed, so it can be
reached without getting out of bed. —
Contributed by Geo. C. Brinkerhoff,
Swissvale, Pa.
How to Hold a Screw on a
Screwdriver
A screw that is taken from a place
almost inaccessible with the fingers re-
quires considerable patience to return
it with an ordinary screwdriver unless
some holding-on device is used. I have
found that by putting a piece of card-
board or thick paper with the blade of
the screwdriver in the screw head slot,
the screw may be held and turned into
places that it would be impossible with
the screwdriver alone. — Contributed by
C Chatland, Ogden, Utah.
izocbyGOOgIC
How to Make a Lead Cannon
Any boy who has a little mechanical
Ability can make a very reliable cannon
for his Fourth-of-JuIy celebration by
lollowing the instructions given here:
-f.S==(
L*>d CanooB Caotttuctioa
"l «ke a stick — a piece of curtain
roUrf will do — 7 in, long. Make a
6hou(der, as at A, Fig. 1, 4 in. from
one end, making it as true and smooth
as possible, as this is to be the muzzle
of the cannon. Make the spindle as in
Fig- 1, Vk in- in diameter. Procure a
good quality of stiff paper, about 6 in.
wide, and wrap it around the shoulder
of the stick, letting it extend % in.
beyond the end of the spindle, as at B,
Fig, 2, Push an ordinary shingle nail
through the paper and into the extreme
end of the spindle, as at A, Fig. 2, This
is to form the fuse hole.
Having finished this, place stick and
all in a pail of sand, being careful not
to get the sand in it, and letting the
opening at the top extend a little above
the surface of the sand. Then fill the
paper cylinder with melted lead and
let cool. Pull out the nail and stick,
scrape oS the paper and the cannon is
ready for mounting, as in Fig, 3, — Con-
tributed by Chas. S. Chapman, Lanes-
boro, Minn.
Homemade Electric Bed Warmer
The heat developed by a carbon-fil-
ament lamp is sufficiently high to allow
its use as a heating element of, for in-
stance, a bed warmer. There are a
number of other small heaters which
can be easily made and for which
lamps form very suitable heating ele-
ments, but the bed warmer is probably
the best example. All that is required
is a tin covering, which can be made of
an old can, about 314 in. in diameter.
The top is cut out and the edge filed
smooth. The lamp-socket end of the
flexible cord is inserted in the can and
the shade holder gripped over the
opening. A small lamp of about 5 cp.
will do the heating.
A flannel bag, large enough to slip
over the tin can and provided with a
neck that can be drawn together by
means of a cord, gives the heater a
more finished appearance, as well as
making it more pleasant to the touch.
Making a Fire with the Aid of Ice
Take a piece of very clear ice and
melt it down into the hollow of your
hands so as to form a large lens. The
illustration shows how this is done.
With the lens-shaped ice used in the
same manner as a reading glass to di-
rect the sun's rays on paper or shav-
ings you can start a fire. — Contributed
by Arthur E. Joerin.
d by Google
. How to Make a ^ossbow and Arrow Sling
In tbe making of this crossbow it is opposite end, which should be sl&ntine
best tb use maple for the stock, but if a little as shown by the dotted lines.'
this wood cannot be procured, good A spring. Fig. 2, is made from a good
straight-grained pine will do. The piece of oak and fastened to the stock
Ditalla of tlM Bow-Odd and Arrow Slioi
material must be IVz in. thick, 6 in.
wide and a trifle over 3 ft. long. The
bow is made from straight-grained oak,
ash, or hickory, % in, thick, 1 in. wide
and 3 ft. long. A piece of oak, % in.
thick, 1}^ in. wide and 6 ft. long, will
be sufficient to make the trigger, spring
and arrows. A piece of tin, some nails
and a good cord will complete the
materials necessary to make the cross-
bow.
The piece of maple or pine selected
for the stock must be planed and sand-
papered on both sides, and then marked
and cut as shown in Fig. 1. A groove
is cut for the arrows in the top straight
edge % in. wide and % in. deep. The
tin is bent and fastened on the wood
at the back end of the groove where
the cord slips out of the notch ; this is
to keep the edges from splitting.
A mortise is cut for the bow at a
point 9^ in. from the endof the stock,
id one for the trigger 13 in. from the
with two screws. The tri^er. Fig. 3,
which is % in. thick, is inserted in the
mortise in the position when pulled
back, and adjusted so as to raise the
spring to the proper height, and then
a pin is put through both stock and
trigger, having the latter swing quite
freely. When the trigger is pulled, it
lifts the spring up, which in turn lifts
the cord off the tin notch.
The stick for the bow, Fig. 4, is
dressed down from a point % in. on
each side of the center line to Vi in.
wide at each end. Notches are cut in
the ends for the cord. The bow is not
fastened in the stock, it is wrapped
with a piece of canvas 1^/^ in. wide on
the center line to make a tight fit in
the mortise, A stout cord is now tied
in the notches cut in the ends of the
bow making the cord taut when the
wood is straight.
The design of the arrows is shown
in Fig. 6 and they are made with the
jOOgIc
blades much thinner than the round
part.
To shoot the crossbow, pull the cord
back and down in the notch as shown
in Fig. 6, place the arrow in the groove,
sight and pull the trigger as in shoot-
ing an ordinary gun.
The arrow sling is made from a
branch of ash about Ys in, in diameter,
the bark removed and a notch cut in
one end, as shown in Fi^. 7. A stout
cord about S;!-^ ft. long is tied in the
notch and a large knot made in the
other or loose end. The arrows are
practically the same as those used on
the crossbow, with the exception of a
small notch which is cut in them as
shown in Fig, 8,
To throw the arrow, insert the cord
near the knot in the notch of the arrow,
then grasping the stick with the right
hand and holding the wing of the arrow
with the left, as shown in Fig. 9, throw
the arrow wijh a quick slinging motion.
The arrow may be thrown several
hundred feet after a little practice. —
Contributed by O. E. Trownes, Wil-
mette. III.
A Home-Made Vise
Cut two pieces of wood in the shape
shown in the sketch and bore a %-in.
hole through both of them for a com-
mon carriage bolt. Fasten one of the
pieces to the edge of the bench with
a large wood screw and attach the
other piece to the first one with a piece
of leather nailed across the bottom of
both pieces. The nut on the carriage
bolt may be tightened with a wrench,
pi
p
B
Detail* of « Hoi
e-lfadc BcDcb Vin
or, better still, a key filed out of a piece
of soft steel to fit the nut. The edges
of the jaws are faced with sheet metal
which can be copper or steel suitable
for the work it is intended to bold.
Temporary Dark Room Lantern
Occasionally through some accident
to the regular ruby lamp, or through
the necessity of developing while out
of reach of a properly equipped dark
room, some makeshift of illumination
must be improvised. Such a temporary
safe light may be
made from an
empty cigar box
in a short time.
Remove the
bottom of the
box, and nail it
1 position as
shown at A. Re-
n o ve one end,
and replace as
shown at B.
Drive a short
wire nail through the center of the op-
posite end to serve as a seat for the
candle, C. The lamp is ' finished by
tacking two or more layers of yellow
post-office paper over the aperture D,
bringing the paper well around to the
sides and bottom of the box to prevent
light leakage from the cracks around
the edges, says Photo Era. The hinged
cover E, is used as a door, makmg
lighting and trimming convenient The
door may be fastened with a nail or
piece of wire. It is well to reinforce
the hinge by gluing on a strip of cloth
if the lamp is to be in use more than
once or twice. This lamp is safe, for
the projecting edges of A and B form
light-shields for the ventilation orifice
and the crack at the top of the hinged
cover, respectively. Moreover, since
the flame of the candle is above A, only
reflected and transmitted light reaches
the plate, while the danger of igniting
the paper is reduced to a minimtun.
The paint will sag and run if too
much oil is put in white lead.
joglc
Camps and How to Build Them
There are several ways of building
a temporary camp from material that
is always to be found in the woods, and
whether these improvised shelters are
intended to last until a permanent
camp is built, or only as a camp on a
short excursion, a great deal of fun
can be had in their construction. The
Indian camp is the easiest to make. An
evergreen tree with branches growing
well down toward the ground fur-
nishes all the material. By chopping
the trunk almost through, so that when
the tree falls the upper part will still
remain attached to the stump, a serv-
iceable s.helter can be quickly provided.
The cut should be about 5 ft. from
the ground. Then the boughs and
branches on the under side of the fallen
top are chopped away and piled on top.
There is room for several persons
under this sort of shelter, which offers
fairly good protection against any but
the most drenching rains.
The Indian wigwam sheds rain bet-
ter, and where there are no suitable
trees that can be cut, it is the easiest
camp to make. Three long poles with
the tops tied together and the lower
ends spaced 8 or 10 ft. apart, make the
frame of the wigwam. Branches and
brush can easily be piled up, and
woven in and out on these poles so as
to shed a very heavy rain.
The brush camp is shaped like an
ordinary "A" tent. The ridge pole
should be about 8 ft. long and sup-
ported by crotched uprights about 6
ft. from the ground. Often the ridge
pole can be laid from one small tree
to another. Avoid tall trees on account
of lightning. Eight or ten long poles
are then laid slanting against the ridge
pole on each side. Cedar or hemlock
boughs make the best thatch for the
brash camp. They should be piled up
to a thickness of a foot or more over
the slanting poles and woven in and
out to keep them from slipping. Then
a number of poles should be laid over
them to prevent them from blowing
away.
In woods where there is plenty of
bark available in large slabs, the bark
lean-to is a quickly constructed and
serviceable camp. The ridge pole is
set up like that of the brash camp.
Three or four other poles are laid
slanting to the ground on one side
only. The ends of these poles should
be pushed into the earth and fastened
with crotched sticks. Long poles are
then laid crossways of these slanting
poles, and the whole can be covered
with brush as in the case of the brash
camp or with strips of bark laid over-
lapping each other like shingles.
Where bark is used, nails arc neces-
sary to hold it in place. Bark may
also be used for a wigwam and it can
be held in place by a cord wrapped
tightly around the whole structure,
ranning spiralwise from the ground to
the peak. In the early summer, the
bark can easily be removed from most
trees by making two circular cuts
around the trunk and joining them
with another vertical cut. The bark is
easily pried off with an ax, and if laid
on the ground under heavy stones,
will dry fiat. Sheets of bark, fi ft. long
and 2 or 3 ft. wide, are a convenient
size for camp construction.
The small boughs and twigs of
hemlock, sprace, and cedar, piled 3 or
3 ft. deep and covered with blankets,
make the best kind of a camp bed.
For a permanent camp, a bunk can be
made by laying small poles close to-
gether across two larger poles on a
rude framework easily constracted.
Evergreen twigs or dried leaves are
piled on this, and a blanket or a piece
of canvas stretched across and fast-
ened down to the poles at the sides.
A bed like this is soft and springy and
will last through an ordinary camping
season without renewal. A portable
cot that does not take up much room
in the camp outtit is made of a piece
of heavy canvas 40 in. wide and 6 ft.
long. Four-inch hems are sewed in
each side of the canvas, and when the
camp is pitched, a 3-in. pole is run
through each hem and the ends of the
pole supported on crotched sticks.
lOOglc
^.A Closed Lean-to. Thatched
" 45^ ^ with Bork --^'"^—--^^
Broom of Hemlock Twiga
Digitized byGOOgle
Fresh water close at hand and
shade for the middle of the day are
two points that should always be
looked for in selecting a site for a
camp. If the camp is to be occupied
for any length of time, useful imple-
ments for many purposes can be made
out of such material as the woods af-
ford. The simplest way to build a
crane for hanging kettles over the
campfire is to drive two posts into the
ground, each of them a foot or more
from one end of the fire space, and
split the tops with an ax, so that
a pole laid from one to the other
across the fire will be securely held in
the split. Tongs are very useful in
camp. A piece of elm or hickory, 3
ft. long and 1% >i>. thick, makes a
good pair of tongs. For a foot in the
middle of the stick, cut half of the
thickness away and hold this part
over the fire until it can be bent easily
to bring the two ends together, then
fasten a crosspiece to hold the ends
close together, shape the ends so that
anything that drops into the fire can
be seized by them, and a serviceable
pair of tongs is the result. Any sort
of a stick that is easily handled will
serve as a poker. Hemlock twigs tied
around one end of a stick make an
excellent broom. Movable seats for a
permanent camp are easily made by
splitting a log, boring holes in the
rounded side of the. slab and driving
pegs into them to serve as legs. A
short slab or plank can easily be made
into a three-legged stool in the same
way.
Campers usually have boxes in
which their provisions have been car-
ried. Such a packing box is easily
made into a cupboard, and it is not
difficult to improvise shelves, hinges,
or even a rough lock for t^e camp
larder.
A good way to make a camp table
is to set four posts into the ground
and nail crosspieces to support slabs
cut from chopped wood logs to form
a top. Pieces can be nailed onto the
legs of the table to hold other slabs to
serve as seats, and affording accom-
modation for several persons.
Brooder for Small Chicks
A very simple brooder can be con-
structed by cutting a sugar barrel in
half and using one part in the manner
Brooder for Youde Chicki K<pt Warm with ■
Jug ol Bailing Water
described. Line the inside of the half
barrel with paper and then cover this
with old flannel cloth. Make a cover
for the top and line it in the same man-
ner. At the bottom cut a hole in the
edge, about 4 in. deep and 4 in. wide,
and provide a cover or door. The
inside is kept warm by filling a jug
with boiling water and setting it with-
in, changing the water both morning
and night. When the temperature
outside is 10 deg. the interior can be
kept at 90 or 100 deg., but the jug must
be refilled with boiling water at least
twice a day.
Faucet Used as an Emergeocy Plug
A brass faucet split as shown at A
during a cold spell, and as no suitable
plug to screw into the elbow after re-
moving the faucet was at hand, I drove
a small cork, B, into the end of the
faucet and screwed it back in place.
The cork converted the faucet into an
A Tigbt-FlttiDE Cork Driven into ■ Cricked Fancat
Converted It into an F.mergencr Plug
emergency plug which prevented leak-
age until the proper fitting to take its
place could be secured. — Contributed
by James M. Kane, Doylestown, Pa. ^
■'S
iC
Automatic Electric Heat Regulator
It is composed of a closed glass tube,
A, Fig, 1, connected by means of a
very small lead pipe, B, to another
glass tube, C, open at the bottom and
having five pieces of platinum wire
(1. 2, 3, 4 and 6), which project inside
and outside of the tube, fused into one
side. This tube is plunged into an
ebonite vessel of somewhat larger
diameter, which is fastened to the base
by a copper screw, E. The tube C is
filled to a certain height with mercury
and then petroleum. The outer ends
of the five platinum wires are soldered
to ordinary copper wires and connec-
tions made to various points on a
rheostat as shown. The diagram. Fig.
2, shows how the connections to the
supply current are made.
The apparatus operates as follows:
The tube is immersed in the matter to
be heated, a liquid, for instance. As
i>-
Wirioc DlasTBRi SbowlDB
the temperature of this rises, the air
expands and exerts pressure on the
petroleum in the ♦".be C so that the
level of the mercury is lowered. The
'.current is thus compelled, as the plati-
num wires with the fall of the mercury
are brought out of circuit, to pass
through an increasing resistance, until,
if necessary, the flow is entirely
stopped when the mercury falls below
the wire 5.
With this very simple apparatus the
temperature can be kept constant
within a 10-deg, limit, and it can be
made much more sensitive by increas-
ing the number of platinum wires and
placing them closer together, and by
filling the tube A with some very
volatile substance, such as ether, for
instance. The petroleum above the
mercury prevents sparking between
the platinum wire and the mercury
when the latter falls below any one
of them.
Repairing a Washer on a Flush Valve
When the rubber washer on the cop-
per flush valve of a soil-basin tank be-
comes loose it can be
set by pouring a ,ptw*r»»<
small quantity of
paraffin between the
rubber and the cop-
per while the valve
is inverted, care be-
ing taken to have
the rubber ring cen-
tered. This makes
a repair that will not allow a drop of
water to leak oilt of the tank. — Con-
tributed by Frank Jermin, Alpena,
Michigan.
Cleaning Discolored Silver
A very quick way to clean silver
when it is not tarnished, but merely
discolored, is to wash the articles in a
weak solution of ammonia water. This
removes the black stains caused by sul-
phur in the air. After cleaning them
with the solution, they should be
washed and polished in magnesia pow-
der or with a cloth. This method
works well on silver spoons tarnished
''y eggs and can be used every day
while other methods require much time
and, therefore, cannot be used so often.
oog Ic
How to Make a Small Electric Motor
By W. A. ROBERTSON
The field frame of the motor. Fig. 1,
is composed of wrought sheet iron,
which may be of any thickness so
that, when several pieces are placed
together, they will make a frame % in.
thick. It is necessary to lay out a
template of the frame as shown, mak-
ing it -^ in. larger than the dimensions
given, to allow for filing to shape after
the parts are fastened together. After
the template is marked out, drill the
four rivet holes, clamp the template, or
pattern, to the sheet iron and mark
carefully with a scriber. The bore can
be marked with a pair of dividers, set
at ^^ in. This will mark a line for the
center of the holes to be drilled with a
*/4-in. drill for removing the unneces-
sary metal. The points formed by
drilling the holes can be filed to the pat-
tern size. Be sure to mark and cut out
a suHic'rnt number of plates to make
a frame % in. thick, or even ■ff in,
thicker, to allow for finishing.
After the plates are cut out and the
rivet holes drilled, assemble and rivet
them solidly, then bore it out to a diam-
eter of 2% in. on a lathe. If the thick-
ness is sufficient, a slight finishing cut
can be taken on the face. Before
removing the field from the lathe, mark
off a space, 3% in. in diameter, for the
field core with a sharp-pointed tool,
and for the outside of the frame, 4V»
in. in diameter, by turning the lathe
with the hand. Then the field can be
finished to these marks, which will
make it uniform in size. When the
frame is finished so far, two holes, 3%
in. between centers, are drilled and
tapped with a %-in. tap. These holes
are for the bearing studs. Two holes
are also drilled and tapped for ^-in.
screws, which fasten the holding-down
lugs or feet to the frame. These lugs
are made of a piece of %-in. brass or
iron, bent at right angles as shown.
The bearing studs are now made, as
shown in Fig. 3, and turned into the
threaded holes in the frame. The bear-
ing supports are made of two pieces of
%-in. brass, as shown in the left-hand
sketch, Fig. 3, which are fitted on the
studs in the frame. A %-in. hole is
Iron RfvM*d Toc*tli*r
drilled in the center of each of these
supports, into which a piece of %-in.
brass rod is inserted, soldered into
place, and drilled to receive the arma-
ture shaft. These bearings should be
fitted and soldered in place after the
armature is constructed. The manner
of doing this is to wrap a piece of paper
on the outside of the finished armature
ring and place it through the opening
in the field, then slip the bearings on
the ends of the shaft. If the holes in
the bearing support should be out of
line, file them out to make the proper
adjustment. When the bearings are
located, solder them to the supports,
and build up the solder well. Remove
the paper from the armature ring and
see that the armature revolves freely
in the bearings without touching the
inside of the field at any point. The
supports are then removed and the
solder turned up in a lathe, or other-
wise finished. The shaft of the arma-
hyCoOglC
ture, Fig. 4, is turned up from machine
steel, leaving the finish of the bearings
until the armature is completed and
fastened to the shaft.
The armature core is made up as fol-
lows: Two pieces of wrought sheet
iron, Ys in. thick, are cut out a little
larger than called for by the dimen-
sions given in Fig. 5, to allow for
finishing to size. These are used for
the outside plates and enough pieces of
No. 24 gauge sheet iron to fill up the
part between until the whole is over
% in. thick are cut like the pattern.
After the pieces are cut out, clamp
them together and drill six %-in. holes
through them for rivets. Rivet them
together, and anneal the whole piece
by placing it in a fire and heating the
metal to a cherry red, then allowing it
to coot in the ashes. When annealed,
bore out the inside to 1^ <"- ■" diam-
eter and fit in a brass spider, which is
made as follows: Procure a piece of
brass, % in. thick, and turn it up to the
size shown and file out the metal
between the arms. Slip the spider on
the armature shaft and secure it solidly
with the setscrew so that the shaft will
not turn in the spider when truing up
the armature core. File grooves or
slots in the armature ring so that it
will fit on the arms of the spider. Be
sure to have the inside of the armature
core run true. When this is accom-
plished, solder the arms of the spider
to the metal of the armature core. The
, shaft with the core is then put in ?
lathe and the outside turned off to the
proper size. The sides are also faced
off and finished. Make the core % in.
thick. Remove the core from the lathe
and file out slots % in. deep and ^
in. wide.
The commutator is turned from a
piece of brass pipe, % in. inside diam-
eter, as shown in Fig. 6. The piece is
placed on a mandrel and turned to %
in. in length and both ends chamfered
to an angle of 60 deg. Divide the sur-
face into 12 equal parts, or segments.
Find the centers of each segment at one
end, then drill a l/^-in. hole and tap it
for a pin. The pins are made of brass,
threaded, turned into place and the
ends turned in a lathe to an ouf^ide
diameter of 1I4 ""■ Make a slit with a
small saw blade in the end of each pin
for the ends of the wires coming from
the commutator coils. Saw the ring
into the 12 parts on the lines between
the pins.
The two insulating ends for holding
these segments are made of fiber
turned to fit the bore of the brass
tubing, as shown in Fig. 7. Procure 12
strips of mica, the same thickness as
the width of the saw cut made between
the segments, and use them as a filler
and insulation between the commuta-
tor bars. Place them on the fiber huh
and slip the hub on the shaft, then
clamp the whole in place with the nut.
as shown in Fig. 3. True up the com-
mutator in a lathe to the size given in
Fig. 6.
The brush holder is shaped from a
l:v v^<v.^v_'Vl^_
piece of fiber, as shown in Fig. 8, The
studs for holding the brushes are cut
from A-'i- brass rod, as shown in Fig.
9. The brushes consist of brass or cop-
per wire gauze, rolled up and flattened
out to Va in. thick and % in. wide, one
end being soldered to keep the wires in
place. The holder is slipped on the
projecting outside end of the bearing,
as shown in Fig. 3, and held with a set-
screw.
The field core is insulated before
winding with l/C4-in. sheet fiber, wash-
ers, V/s in. by IM; in-, being formed for
the ends, with a hole cut in them to
fit over the insulation placed on the
cores. A slit is cut through from the
hole to the outside, and then they are
soaked in warm water, until they
become flexible enough to be put in
place. After they have dried, they are
glued to the core insulation.
The field is wound with No. 18 gauge
double-cotton-covered magnet wire,
about 100 ft. being required. Drill a
small hole through each of the lower-
end insulating washers. In starting to
wind, insert the end of the wire
through the hole from the inside, at A,
Fig. 1, and wind on four layers, which
will take 50 ft. of the wire, and bring
the end of the wire out at B. After
one coil, or side, is wound start at C
in the same manner as at A, using the
same number of turns and the same
length of wire. The two ends are
joined at B.
The armature ring is insulated by
covering the inside and brass spider
with I'j-in. sheet fiber. Two rings of
^-in. sheet fiber are cut and glued to
the sides of the ring. When the glue is
set, cut out the part within the slot
ends and make 13 channel pieces from
1/64-in. sheet fiber, which are glued
in the slots and to the fiber washers.
Be sure to have the ring and spider
covered so the wire will not touch the
iron or brass.
Each slot of the armature is wound
with about 12 ft. of No. 21 gauge
double-cotton-covered magnet wire.
The winding is started at A, Fig, 5, by
bending the end around one of the pro-
jections, then wind the coil in one of
the slots as shown, making 40 turns, or
four layers of 10 turns each, shellack-
ing each layer as it is wound. After
the coil is completed in one slot, allow
about 2 in. of the end to protrude, to
fasten to the commutator segment.
Wind the next slot with the same num-
ber of turns in the same manner, and so
on, until the 12 slots are filled. The
protruding ends of the coils are con-
nected to the pins in the commutator
segments after the starting end of one
coil is joined to the finishing end of the
next adjacent. All connections should
be securely soldered.
The whole motor is fastened with
screws to a wood base, 8 in. long, 6
in. wide and 1 in. thick. Two terminals
are fastened at one side on the base,
and a switch at the other side.
To connect the wires, after the motor
is on the stand, the two ends of the
wire, shown at B, Fig. 1, are soldered
together. Run one end of the field
wire, shown at A, through a small hole
in the base and make a groove on the
under side so that the wire end can be
connected to one of the terminals.
The other end of the field wire C is
connected to the brass screw in the
brass brush stud. Connect a wire from
the other brush stiid, run it through
a small hole in the base and cut a
groove for it on the under side so that
it can be connected through the switch
and the other terminal. This winding
is for a series motor. The source of
current is connected to the terminals.
The motor can be run on a 110-volt
direct current, but a resistance must
be placed in series with it.
CNew tinware rubbed over with fresh
lard and heated will never rust.
izccbyGOOgIC
Another Optical Illusion
After taking a look at the accompany-
ing illustration you will be positive that
the cords shown run in a spiral toward
the center, yet it shows a series of per-
Tbe Cord Ii Ndt a S^nl
feet circles of (-ords placed one instde
the other. You can test this for your-
self in a moment with a pair of com-
passes, or, still more simply, by laying
a point of a pencil on any part of the
cord and following- it round. Instead
of approaching or receding from the
center in a continuous line, as in the
case of a spiral, you w^ll find the pencil
returning to the point from which it
started.
Substitute for Insulating Cleats
In wiring up door bells, alarms and
telephones, as well as experimental
work the use of
common felt gun
wads make a very
good cleat for the
wires. They are
used in the manner illustrated in the
accompanying sketch. The insulated
wire is placed between two wads and
fastened with two nails or screws. If
one wad on the back is not thick
enough to keep the wire away from the
support, put on two wads behind and
one in front of the wire and fasten in
the same manner as described.
Electrically Operated Indicator for a
Wind Vane
The accompanying photograph sh--*s
a wind vane connected with electric
wires to an instrument at considerable
distance which indicates by means
of a magnetic needle the direction of
the wind. The bearings of the vane
consist of the head of a womout
bicycle. A yi-m. iron pipe extends
from the vane and is held in place by
the clamp originally used to secure the
handle bar of the bicycle. In place of
the forks is attached an eight-cylinder
gas engine timer which is slightly
altered in such a manner that the brush
is at all times in contact, and when
pointing between two contacts con-
nects them both. Nine wires run from
the timer, one from each of the eight
contacts, and one, which serves as the
ground wire, is fastened to the metallic
body. The timer is set at such a posi-
tion that when the vane points directly
north, the brush of the timer makes a
connection in the middle of a contact.
When the timer is held in this position
the brush will make connections with
each of the contacts as the vane re-
volves.
The indicating device which is placed
in a convenient place in the house con-
sists of eight 4-ohm magnets fastened
upon a 1-in. board. These magnets are
placed in a 10-in. circle, 45 deg, apart
and with their faces pointing toward
the center. Covering these is a thin,
wood board upon which is fastened a.
neatly drawn dial resembling a mari-
ner's compass card. This is placed over
the magnets in such a manner that
there will be a magnet under each of
the eight principal points marked on
the dial. Over this dial is a magnetic
needle or pointer, 6 in. long, perfectly
balanced on the end of a standard and
above all is placed a cover havingf a
glass top. The eight wires from the
timer contacts connect with the out-
side wires of the eight magnets sepa-
rately and the inside wires from the
magnets connect with the metal brace
which holds the magnets in place. A
wire is then connected from the metal
l:v v^JV.^v_'Vl^_
brace to a push button,
two or three cells of
dry battery and to the
ground wire in coauec-
tion with the timer.
The wires are Con-
nected in such a man-
ner that when the vane
is pointing in a certain
direction the battery
will be connected in
series with the coil
under that part of the
dial representing the
direction in which the
vane is pointing, thus
magnetizing the core
of the magnet which
attracts the opposite
pole of the needle to-
ward the face of the
magnet and indicating
the way the wind is
blowing. The pointer
end of the needle is
painted black.
If the vane points in
such a direction that
the timer brush con-
nects two contacts, two
magnets will be mag-
netized and the needle
will point midway be-
tween the two lines
represented on the dial,
thus giving 16 differ-
ent directions. Around
the pointer end of the
needle is wound a fine
copper wire, one end of
which extends down to
about A in. of the dial.
This wire holds the
needle in place when
the pointer end is di-
rectly over the magnet
attracting it ; the mas:-
net causing the needle
to "dip" will bring the
wire in contact with
the paper dial. With-
out this a'tachment.
the needle would swing
a few seconds before
coming to a sUndstill Th. wind v«^ h..
dbyGOOgIC
The vane itself is easily constructed
as can be seen in the illustration. It
should be about 6 ft long to give tlie
best results. The magnets used can
be purchased from any electrical store
in pairs which are called "instrument
magnets," Any automobile garage can
supply the timer and an old valueless
bicycle frame is not hard to find. The
cover is easily made from a picture
frame with four small boards arranged
to take the place of the picture as
shown.
The outfit is valuable to a person
who is situated where a vane could
not be placed so as to be seen from a
window and especially at night when
it is hard to determine the direction of
the wind. By simply pressing the
push button on the side of the cover,
the needle will instantly point to the
part of the dial from which the wind
IS blowing.— Contributed by James L.
Blackmer, Buffalo, N. Y.
A Home-Made Floor Polisher
An inexpensive fioor polisher can be
made as follows: Secure a wooden
box with a base 8 by 12 in. and
about 6 in, high, also a piece of new
carpet, 14 by 18 in. Cut 3-in, squares
out of the four comers of the carpet
and place the box squarely on it. Turn
three of the flaps of the carpet up and
tack them securely to the sides of the
box. Before tacking the fourth side,
fold a couple of newspapers to the
right size and shove them in between
the carpet and tllt> bottom of the box
for a cushion. H'Jl tiie box with any
handy ballast, maSing it heavy or
light, according to who is going to use
it, and securely nail on the top of the
box. The handle can be made from an
old broom handle the whole of which
will be none too long. Drive a heavy
screweye into the big end of the handle
and fasten to the polisher by a staple
driven through the eye into the center
of the cover, thus making a universal
joint. The size of the box given here
15 the best although any size near that,
if not too high, will answer the pur-
pose just as well. The box is pushed
or pulled over the floor and the padded
side will produce a fine polish.
How to Make a Lady's Card-Case
A card-case such as is shown here
makes a very appropriate present for
any lady. To make it, secure a piece
of "ooze" calf skin leather iX^ by 10^
in. The one shown in the accompany-
ing picture was made of a rich tan ooz"?
of light weight and was lined with a
grey-green goat skin. The design was
stenciled and the open parts backed
with a green silk plush having a rather
heavy nap. The lining of goat skin
need not cover more than the central
part — not the flies. A piece 4^^ by 5
1
11)
fif
^^^^^
i
:■
^^^^^
^, 21' .
DniED for the Cow of Ladr"* C*rd-Ci
d by Google
in. will be sufficient. A piece of plush
1% by 6 in, will be enough for the two
sides.
Begin work by shaping the larger
piece of leather as shown in the draw-
ing. Allow a little margin at the top
and bottom, however, to permit trim-
ming the edges slightly after the parts
have been sewed together, A knife or
a pair of scissors will do to cut the
leather with, though a special knife,
called a chip carving knife, is most sat-
isfactory.
The next thing is to put in the marks
for the outline of the designs and the
borders. A tool having a point shaped
as in the illustration is commonly used.
It is called a modeling tool for leather
and may be purchased, or, one can be
made from an ordinary nut pick by
taking off the sharpness with fine
emery paper so that it will not cut the
leather. To work these outlines, first
moisten the leather on the back with
as much water as it will take and still
not show through on the face side.
Place the leather on some level, non-
absorbent surface and with the tool —
and a straightedge on the straight
lines — indent the leather as shown.
The easiest way is to place the paper
pattern on the leather and mark on the
paper. The indentations will be trans-
ferred without the necessity of putting
any lines on the leather.
With the knife cut out the stencils
as shown. Paste the silk plush to the
inner side, being careful not to get any
of the paste so far out that it will show.
A good leather paste will be required.
Leathn- Taoli
Next place the lining, fold the flies
along the lines indicated in the draw-
ing. Hold the parts together and
stitch them on a sewing-machine. An
ordinary sewing-machine will do if a
good stout needle is used. A silk thread
that will match the leather should be
used. Keep the ooze side of the lining
Compkt* Caid-Cu«
out SO that it will show, rather than the
smooth side. With the knife and
straightedge trim oS the surphis ma-
terial at the top and bottom and the
book is ready for use.
Home-Made Fire Extinguisher
Dissolve 20 lb. of common salt and
10 lb. of sal ammoniac in 7 gal. of
water, and put the solution in thin
glass bottles, cork tightly and seal to
prevent evaporation. The bottles
should hold about I qt. If a fire breaks
out, throw one of the bottles in or
near the flames, or break off the neck
and scatter the contents on the fire.
It may be necessary to use several bot-
tles to quench the flames.
dbyGOOgIC
Crutch Made of an Otd Broom
An emergency crutch made of a
worn-out broom is an excellent substi-
tute for a wood crutch, especially
when one or
more crutches
are needed for
a short time,
as in cases of a
sprained ankle,
temporary
lameness, or a
hip that has
been wrenched.
Shorten and
hollow out the
brush of the
broom and then
pad the hollow part with cotton bat-
ting, covering it with a piece of cloth
sewed in place. Such a crutch does
not heat the arm pit and there is an
elasticity about it not to be had in the
wooden crutch. The crutch can be
made to lit either child or adult, and,
owing to its cheapness, can be thrown
away when no longer needed. — Con-
tributed by Katharine D. Morse, Syra-
:use, N. Y.
Toy Darts and Parachutes
A dart (Fig. 1) is made of a cork
having a tin cap, a needle and some
feathers. The needle is run through
the center of the cork A and a pin or
piece of steel is put through the eye of
the needle. Take a quantity of small
feathers inside of it. Fasten the cap on
the cork and the dart is ready for use.
When throwing the dart at a target
stand from 6 to 10 ft. away from it.
The parachute is made by cutting a
piece of paper 15 in. square and tying a
piece of string to each corner. The
strings should be about 15 in. long. Tie
all four strings together in a knot at
the end and fasten them in the top of a
cork with a small tack. It is best to be
as high as possible when flying the
parachute as the air currents will sail it
high and fast. Take hold of the para-
chute by the cork and run it through
the air with the wind, letting it go at
arm's length.— Contributed by J. Gor-
don Dempsey, Paterson, N. J.
A Tool for Lifting Can Covers
A handy tool for prying up varnish,
paint, syrup and similar can covers can
be made from an old fork filed down
Dan Paru and Paptt Pan
leathers, E, and tie them together se-
curely at the bottom. Bore a hole in
ihe center of the cap C, and fasten the
to the shape shown in the illustration.
The end is filed to an edge, but not
sharp.— Contributed by Ben Grebin,
Ashland, Wis.
Keeping Rats from a Chicken Coop
After trying for months to keep the
rats from tunneling their way into my
chicken coop by filling in the holes, lay-
ing poisoned meat and meal, setting
traps, etc., I devised a simple and ef-
fective method to prevent them from
doing harm.
My roosting coop is 5 by 15 ft. There
is a 1-in. board all around the bottom on
the inside. I used wire mesh having
^■in. openings and formed it into the
shape of a large tray with edges 6 in.
high, the comers being wired, and
tacked it to the boards. This not only
keeps the rats out, but prevents the
chickens from di^ng holes, thus help-
ing the rats to enter.— Contriiuted by
John A. Hellwig, Albany, N. Y.
lOOglc
Homemade Telephone Receiver
The receiver illustrated herewith is
to be used in connection with the
transmitter described elsewhere in this
volume. The body of the receiver. A,
is made of a
large wooden
ribbon spool.
I One end is re-
moved entirely,
the other sawed
in two on the
line C and a
flange, F, is cut
on the wood, ^4
in, wide and Vn
in. deep.' A
flange of the
same size is
made on the end
D that was
sawed off, and
the outside part
tapered toward
_ _ theholeas
shown. The
magnet is made of a 30-penny nail,
B, cut to the length of the spool, and
a coil of wire, E, wound on the head
end. The coil is 1 in. long, made up
of four layers of No. 32 gauge copper
magnet wire, allowing the ends to ex-
tend out about 6 in. The nail with
the coil is then put into the hole of the
spool as shown. The diaphragm C.
which is the essential part of the in-
strument, should be made as carefully
as possible from ferrotype tin, com-
monly called tintype tin. The dia-
phragm is placed between the flanges
on the spool and the end D that was
sawed off. The end piece and dia-
phragm are both fastened to the spool
with two or three slender wood screws,
as shown.
A small wooden or fiber end, G, is
fitted with two binding posts which
are connected to the ends of the wire
left projecting from the magnet wind-
ing. The binding posts are attached to
the line and a trial given. The proper
distance must be found between the
diaphragm and the head of the nail.
This can be accomplished by moving
the nail and magnet in the hole of the
spool. When the distance to produce
the right sound is found, the nail and
magnet can be made fast by filling the
open space with melted sealing wax.
The end G is now fastened to the end
of the spool, and the receiver is ready
for use.
How to Clean Jewelry
To cleanse articles of silver, gold,
bronze and brass use a saturated solu-
tion of cyanide of potassium. To clean
small articles, dip each one into the
solution and rinse immediately in hot
water ; then dry and polish with a linen
cloth. Larger articles are cleaned by
rubbing the surface with a small tuft
of cotton saturated in the solution. As
cyanide of potassium is a deadly
poison, care must be taken not to have
it touch any sore spot on the flesh.
Ornamental Iron Flower Stand
The illustration shows an orna-
mental iron stand constructed to hold
a glass or china vase. This stand can
be made by first drawing an outline of
the vase on a heavy piece of paper.
The vase is to have three supports.
The shape of the scrolls forming each
support should be drawn on the paper
The SUnd with Vwe
around the shape of the vase. A single
line will be sufficient, but care must
be taken to get the shapes of the scrolls
true. Take a piece of string or, better
still, a piece of small wire, and pass it
around the scroll shape on the paper.
joglc
This will give the exact length of the straight, placing it on the sketch from
iron required to make the scroll. As
sheet metal is used for making the
scrolls, it can be cut in the right
lengths with a pair of tinner's shears.
Take a pair of round-nose pliers, begin
with the smallest scrolls, and bend
each strip in shape, using the flat-nose
time to time to see that the scrolls are
kept to the shape required. The scrolls
are riveted and bolted together. The
supports are fastened together with
rings of strip iron % in. wide, to which
the supports are fastened with rivets.
The metal can be covered with any de-
pliers when necessary to keep the iron sired color of enamel paint.
How to Make a Coin Purse
The dimensions for a leather coin
purse are as follows: from A to B, as
shown in the sketch, 6% in. ; from C
to D, 4^ in. ; from E to F, 3^ in. and
LcathM D*tl(n (at a Pun*
from G to H, 3*4 in- Russian calf
modeling leather is the material used.
A shade of brown is best as it does not
soil easily, and does not require color-
ing.
Cut out the leather to the size of the
pattern, then moisten the surface on
the rough side with a sponge soaked in
water. lie careful not to moisten the
leather too much or the water will go
through the smooth side. Have the
design drawn or traced on the pattern.
Then lay the pattern on the smooth
side of the leather and trace over the
design with the small end of the
leather tool or a hard, sharp pencil.
Trace also the line around the purse.
Dampen the leather as often as is
necessary to keep it properly mois-
tened.
After taking off the pattern, retrace
the desig:n directly on the leather to
make it more distinct, using a duller
point of the tool. Press or model
down the leather all around the de-
sign, making it as smooth as possible
with the round side of the tool. Work
down the outside line of the design,
thus raising it.
Fold the leather on the line EF. Cut
another piece of leather the size of the
side ECBD of the purse, and after put-
ting the wrong sides of the leather to-
gether, stitch around the edge as
designated by the letters above men-
tioned. Do not make this piece come
quite up to the line EF, so that the
coins may be more easily put in and
taken out. About 1 in. from the lines
EF on the piece, stitch in a strip of
leather about ^ in. wide when stitch-
ing up the purse, through which to slip
the fly AGH.
A window glass may be kept from
frosting by rubbing over the inner sur-
face a solution of 55 parts of glycerine
and 1,000 parts of 60 per cent alcohol.
The odor may be improved by adding;
a little oil of amber. This solution wiii
also prevent a glass from sweating in
warm weather.
d by Google
How to Make a Turbine Engine
la the following article is described
a machine which anyone can make,
and which will be very interesting, as
well as useful. It can be made without
the use of a lathe, or other tools usu- '
ally out of reach of the amateur me-
chanic. It is neat and efficient, and a
model for speed and power. Babbitt
metal is the material used in its con-
struction, being cast in wooden molds.
The ca«ng for the wheel is cast in
halves — a fact which must be kept in
mind.
First, procure a planed pine board 1
by 12 in. by 18 ft. long. Cut off six
is even at the edge with the under
square piece and place the wheel so
that the space between the wheel and
the other piece of wood is an even %
in. all the way around. Then nail the
wheel down firmly, and tack the other
piece slightly,
Procure a thin board % in. thick, and
cut it out as shown in Fig. 3 ; then nail
it, with pins or small nails, on the
center of one of the square pieces of
wood. Fit this to the two pieces just
finished, with the thin wheel down —
but first boring a %-m. hole Vt in. deep,
in the center of it; and boring a %-in.
pieces 12 in. square, and, with a com-
pass saw, cut out one piece as shown
in Fig. 1, following the dotted lines,
leaving the lug a, and the projections
B and b to be cut out with a pocket
knife. Make the lug % in. deep^ and
the projections B, b, % in. deep. The
entire cut should be slightly beveled.
Now take another piece of wood, and
cut out a wheel, as shown in Fig. 2.
This also should be slightly beveled.
AVhen it is finished, place it on one of
the square pieces of wood, with the
largest side down, then place the square
piece out of which Fig. 1 was cut,
around the wheel, with the open side
down. (We shall call that side of a
mold put of which a casting is drawn,
the "open" side.) Place it so that it
hole entirely through at the same place.
Now put mold No. 1 (for that is what
we shall call this mold) in a vise, and
bore six %-ia. holes tiirougb it. Be
z: Iv^lOOglC
careful to keep these holes well out in an hour, then loosen the bolts and re-
the solid part, as shown by the black move the casting,
dots in Fig. 1. Take the mold apart, Now cut out one of the 12-in.<square
and clean all the shavings out of it ; pieces of wood as shown in Fig. 6. This
IS the same as Fig, 1, only the one is
left-handed, the other right-handed.
Put this together in mold No. 1, in-
stead of the right-handed piece ; and
run in babbitt metal again. The cast-
ing thus made will face together with
the casting previously made.
Pour metal into mold No. 2. This
will cast a paddle-wheel, which is in-
tended to turn inside of the casting al-
ready made.
If there should happen to be any
_ Entrance at
Stwrn
then bolt it together, and lay it away
to dry.
Now take another of the 12-in. square
pieces of wood, and cut it out as shown
in Fig. 4, slightly beveled. After it is
finished, place it between two of the
13-in. square pieces of wood, one of
which should have a %-in. hole bored
through its center. Then bolt together
with six H-in. bolts, as shown by the
holes or spots, where the casting did
not fill out, fill them by placing a small
piece of wood with a hole in it, over
the defective part, and pouring metal
in to fill it up.
If you cannot obtain the use of a.
drill press, take an ordinary brace,
fasten a %-in. drill in it, and bore a
hole through the end of a strip about
2 in. wide and 16 in. long; put the top
of the brace through this hole, and
fasten the other end of the strip to a
bench, as shown in illustration. Find
the center of the paddle-wheel, place it
under the drill, true it up with a square ;
and drill it entirely through. Find the
centers of the insides of Uie other two
castings, and drill them in the same
manner.
A piece of mild steel 5 in. long, and
% in. in diameter must now be ob-
tained. This is for a shaft Commeo^
s:
black dots in Fig. 4, and lay it away to
dry. This is mold No. 2.
Now take mold No. 1 ; see that the
bolts are all tight; lay it on a level
place, and pour babbitt metal into it,
until it is full. Let it stand for half
oog Ic
■ng 1% in. from the one end, file the
shaft off Hat for a distance of 1 in.
Then cut a slot in the paddle-wheel,
and place the shaft inside of the paddle-
wheel, with the fiat part of the shaft
turned to face the slot in the wheel.
Pour metal into the slot to key the
wheel on to the shaft.
The paddle-wheel is now ready to
be htted inside of the casing. It may
be necessary to file some of the ends
off the paddles, in order to let the pad-
dle-wheel go into the casing. After
it is fitted in, so that it will turn easily,
place the entire machine in a vise, and
bore three 14-in- holes, one in the lug,
one in the projections, B, b, and the
other in the base, as shown by the black
dots in Fig. 6. Also bore the port-hole
in projection B, and the exhaust hole
in projection b, and two 'A-in. holes at
d, d, Fig. 6. Cut out a piece of gasket
and fit it between the two castings.
Then bolt the castings together, screw
down, and connect to the boiler.
How To Build An Ice Boat
The ice boat is each year becoming
more popular. Any one with even
small experience in using tools can con-
Vring tb« Bnc*
struct such a craft, and the pleasure
many times repays the effort
Take two pieces of wood 2 by 6 in.,
one 6 ft. and the other 8 ft. long. At
each end of the 6-ft. piece and at right
angles to it, bolt a piece of hardwood
2 by 4 by 12 in. Round off the lower
edge of each piece to fit an old skate.
Have a blacksmith bore holes through
the top of the skates and screw one of
them to each of the pieces of hardwood.
The reader must either cast a pulley
out of babbitt metal, or else go to a
machinist and get a collar turned, with
a boss and a set screw, and with three
small screw holes around the edge. Cut
out a small wood wheel and screw the
collar fast to it, fasten it to the shaft
of the turbine and turn on the steam.
Then take a knife or a chisel, and, while
it is running at full speed, turn the
wheel to the shape desired.
Your turbine engine is now ready for
work, and if instructions have been
carefully followed, will do good service.
When painting the automobile body
and chassis be sure to stuff the oil holes
with felt or waste before applying the
paint. If this caution is not observed These skates must be exactly parallel
the holes will become clogged with or there will be trouble the first time
paint virhich will prevent any oil reach- the craft is used.
ing the bearing. Over the middle of the 6-ft. piece and
PUd ot Ice Boat
zscC^lOOgls?
at right angles to it, bolt the 8-ft. plank,
leaving 1 ft, projecting as in Fig. 1.
The rudder skate is fastened to a
piece of hardwood 3 by 3 by 13 in. as
the runners were fastened. This piece
should be mortised 3 by 3 by 4 in. in
the top before the skate is put on.
Figure 2 shows the rudder post.
A piece of hardwood 1 by 6 by 6 in.
Figure 6 shows the way of ri^ng
the gaff to the spar. Figure 7 shows
the method of crotching the main boom
and Fig. 8 a reef point knot, which may
come in handy in heavy winds.
Make your runners as long as possi-
ble, and if a blacksmith will make an
iron or steel runner for you, so much
the better will be your boat.
V
DaUUi ef Ic*
should be screwed to the under side of
the 8-ft. plank at the end with the grain
running crosswise." Through this bore
a hole 1\^ in. in diameter in order that
the rudder post may fit nicely. The
tiller. Fig, 3, should be of hardwood,
and about 8 in. long.
To the under side of the 8-ft. plank
bolt a piece of timber 3 by 4 by 23 in.
in front of the rudder block, and to this
cross piece and the 6-ft. plank nail 8-in.
boards to make the platform.
The spar should be 9 ft. long and 3*/^
in. in diameter at the base, tapering to
iy2 in. at the top. This fits in the
square hole. Fig. 1. The horn should
be 5% ft. long, 2 by 3 in. at the butt
and 1 in, at the end.
Figure 4 gives the shape and dimen-
sions of the mainsail which can be made
rf muslin. Run the seam on a ma-
chine, put a stout cord in the hem and
make loops at the comers.
Electric Rat Exterminator
Some time ago we were troubled by
numerous large rats around the shop,
particularly in a storehouse about 100
ft. distant, where they often did con-
siderable damage. One of the boys
thought he would try a plan of electri-
cal extermination, and in order to carry
out his plan he picked up an old zinc
floor plate that had been used under a
stove and mounted a wooden disk 6 in.
in diameter in the center. On this disk
he placed a small tin pan about 6 in. in
diameter, being careful that none of the
fastening nails made an electrical con-
nection between the zinc plate and the
tin pan.
This apparatus was placed on the
floor of the warehouse where it was
plainly visible from a window in the
shop where we worked and a wire was
run from the pan and another from the
ooglc
zinc plate through the intervening yard
and into the shop. A pood sized induc-
tion coil was through connected with
these wires and about six dry batteries
were used to run the induction coil
whenever a push button was manipu-
lated.
It is quite evident that when a rat
put its two fore feet on the edge of the
pan in order to eat the mush which it
contained, that an electrical connection
would be made through the body of
the rat, and when we pushed the button
up in the shop the rat would be thrown
le lUt Tnu>
2 or 3 ft. in the air and let out a terrific
squeak. The arrangement proved quite
too effective, for after a week the rats
all departed and the boys all regretted
that their fun was at an end. — Con-
tributed by John D. Adams, Phoenix,
Ariz.
How to Make a Simple Fire Alarm
A fire alarm which is both inexpen-
sive and simple in construction is
shown in the illustration. Its parts
are as follows :
A, small piece of wood; B, block of
wood nailed to A ; S S, two pieces of
sheet brass about ^,4 in. wide, bent into
a hook at each end ; P, P, binding-posts
fastening the springs S S, to block 6,
so that they come in contact at C. W
is a piece of wax crayon just long
enough to break the contact at C when
inserted as shown in the illustration.
When these parts have been put to-
gether in the manner described, con-
nect the device in circuit with an elec-
tric bell, and place it behind a stove.
fr'
.-••■
/'
B
i^:
u..
•-.p
\
Simple Piri Alana
When the stove becomes too hot the
wax will melt at the ends, allowing the
springs to contact at C, and the alarm
bell will ring. — Contributed by J, R.
Comstock, Mechanicsburg, Pa.
To Build a Merry-Go-Round
This is a very simple device, but one
that will afford any amount of amuse-
ment. The center post rests in an
auger hole bored in an old stump or in
a post set in the ground. The stump
makes the best support. The center
pole should be 10 ft. high. An old
wheel is mounted at the top of the pole,
and the pole works in the wheel as an
axle, says the American Boy. The
wheel is anchored out by several guy
Hooe-Hide UcrTy-Oo-Ro^
wires. The seat arms may be any
length desired. A passenger rides in
each seat and the motorman takes his
station at the middle.
Emery wheel arbors should be fitted
vith flanges or washers having a slight
: to their face.
jOOglc
Novelty Clock for the Kitchen
An inexpensive and easy way to
make an unique ornament of a clock
A
Tba Clack with Holder
for kitchen use is to take an old alarm
clock or a new one if preferred, and
make it into a clock to hang on the
wail. Take the glass, dial and works
out of the shell and cut some pieces out
of the metal so that when the pieces
left are turned back it will have the
appearance as in Fig. 1. Then get a
10-cent frying pan, 6 in. in diameter,
and drill a hole in the center so the
shaft for the hands will easily pass
through and extend out far enough to
replace the two hands. Put the works
back in the metal shell and solder it
to the frying pan by the pieces turned
out as in Fig. 2. Gild the pan all over,
including the handle, and print black
figures in the small circles. Calendar
figures can be pasted on small circles
and these pasted on the frying pan.
The parts can be divided into minutes
with small lines the same as shown
in the drawing. Make new hands that
are long enough to reach the figures
from sheet brass or tin and paint them
black. — Contributed by Carl P. Herd,
Davenport, Iowa.
How to Make a Small Silver Plating
Outfit
Take an ordinary glass fruit jar or
any other receptacle in glass, not
metal, which will hold 1 qL of liquid
and fill it with rain or distilled water
and then add % oz. of silver chloride
and 1^ oz. of c. p. potassium cyanide.
Let this dissolve and incorporate well
with the water before using. Take an
ordinary wet battery and fasten two
copper wires to the terminals and
fasten the other ends of the wires to
two pieces of heavy copper wire or 14-
in. brass pipe. The wires must be well
soldered to the brass pipe to make a
good connection. When the solution
is made up and entirely dissolved the
outfit is ready for plating.
Procure a small piece of silver, a sil-
ver button, ring, chain or anything
made entirely of silver and fasten a
small copper wire to it and hang on the
brass pipe with connections to the car-
bon of the battery. Clean the article
to be plated well with pumice and a
brush saturated in water. When clean-
ing any article there should be a cop-
per wire attached to it. Do not touch
the article after you once start to clean
it, or the places touched by your fin-
gers will cause the silver plate to peel
off when finished. When well scoured,
run clear, cold water over the article
and if it appears greasy, place in hot
water. When well cleaned place in the
plating bath and carefully watch the
results. If small bubbles come to the
surface you will know that you have
too much of the anode or the piece of
silver hanging in the solution and you
PUtius Jtl and BaHny
must draw out enough of the piece un-
til you can see no more bubbles. Leave
the piece to be plated in the solution
z:cbv^jOOglC
for about one-half hour, then take the
article out and with a tooth brush and
some pumice, clean the yellowish scum
off, rinse in clear water and dry in saw-
dust. When thoroughly dry, take a
cotton flannel rag and some polishing
powder and polish the article. The ar-
ticle must have a fine polish before
plating if it is desired to have a finely
polished surface after the plate is put
on.
In order to see if your battery is
working, take a small copper wire and
touch one end to the anode pipe and
the other end to the pipe holding the
article to be plated. When these two
parts touch there will be a small spark.
Always take the zincs out of the solu-
tion when not in use and the batteries
will last longer. This description ap-
plies only to silver plating. Articles of
lead, pewter, tin or any soft metal can-
not be silver plated unless the article is
first copper plated.
Removing a Tight-Fitting Ring from a
Finger
When a ring cannot be removed eas-
ily from the finger, take a string or
thread and draw one end through be-
tween the ring and the flesh. Coil the
other end of the string around the
finger covering the part from the ring
to and over the finger joint. Uncoil
the string by taking the end placed
througb the ring and at the same time
keep the ring close up to the string.
In this way the ring can be easily slip-
A Photographic Jig-Saw Puzzle
Take any photographic print and
mount it on heavy cardboard, or, if you
ped over the knuckle and off from the
finger.— Contributed by J. K. Miller,
Marietta, Penn.
Plctura Huked for Cutting
have a jig saw, a thin smooth wood
board and mark out various shaped
pieces as shown in the accompanymg
cut. If the picture is mounted on card-
board, the lines can be cut through
with a sharp pointed knife. If you
have a jig saw, you can make a bro-
mide enlargement from the negative
you have selected and mount the print
on a smooth board that is not too thick.
This wotxi-mounted picture can be
sawed out making all shapes of blocks,
which forms a perfect jig-saw puzzle.
—Contributed by Erich Lehmann,
New York City.
Rolling Uphill Illusion
This interesting as well as entertain-
ing illusion, can be made by anyone
having a wood-turning lathe. A solid,
similar to two cones placed base to
base, is accurately turned in a lathe,
the sides sloping to an angle of 45 deg.
The spindle can be turned out of the
solid at the same time as the cone; or,
after turning the cone, drive an iron or
wood shaft through the center making
a tight fit.
The boards for the track are made
with a sloping edge on which the cone
is to roll. This slope will depend on
the diameter of the cone, which can be
lOOglc
any size from 3 to 13 in. The slope
should not be too Rat, or the cone wilt
not roll, and it should be such that the
"^
The Illusion
one end will be higher than the other
by a little less than half the diameter
of the cone. Thus it will be seen that
the diameter of the cone determines the
length of the slope of the tracks. A
notch should be cut in the tracks, as
indicated, for the shaft to drop into at
the end of the course.
The lower end of the tracks are
closed until the high edge of the cone
rests upon the inside edges of the tracks
and the high end spread sufficiently to
take the full width of the cone and to
allow the shaft to fall into the notches.
When the cone and tracks are viewed
from the broadside the deception will
be more perfect, and will not be dis-
covered until the construction of the
model is seen from all sides. Should
it be difficult to make the cone from
wood, a good substitute can be made
from two funnels. — Contributed by I.
G. Bayley, Cape May Point, N. J.
Annealing Chisel Steel
Persons who have occasion to use
tool or carbon steel now and then and
do not have access to an assorted stock
of this material find that the kind most
readily obtained at the hardware store
is the unannealed steel known as chisel
steel. Machining or filing such steel
is exceedingly slow and difficult, be-
sides the destruction of tools; as a
matter of fact this steel is intended for
chisels, drills, and like tools which re-
quire only forging and filing. If this
steel is annealed, it can be worked as
easily as the more expensive annealed
steel.
Annealing may be done by heating
the steel to a cherry red, not any more,
and burying it in a box of slaked lime,
where it is allowed to remain until all
the heat is gone. If well done, the
metal will be comparatively soft and
in a condition to machine easily and
rafwdly. In lieu of lime, bury in ashes,
sand, loam, or any substance not in-
flammable, but fine enough to closely
surround the steel and exclude the air
so that the steel cools very slowly.
If possible, keep the; steel red hot
in the fire several hours, the longer the
better. In certain processes, like that
of file manufacturing, the steel blanks
are kept hot for 48 hours or more.
Where it is impossible to wait so long
as the foregoing method takes, then a
cold water anneal may be used with
less time. This method consists of
heating the work as slowly and thor-
oughly as the time will permit, then
J^k, atn pilntine on (op the plcturs Inm th*
ne^tive, ud fiolued In tbv uiul wiy.
I:V V^<V.^V_'V1^_
removing the steel from the fire and al-
lowing it to cool in the air until black
and then quenching in water.
In addition to softening the steel,
annealing benefits the metal by reliev-
ing strains in the piece. Should a par-
ticularly accurate job be called for, the
steel should be annealed again after
the roughing cuts have been taken and
before machining to the final size.
This will insure a true job and dimin-
ishes the danger of spring in the final
hardening.-— Contributed by Donald A.
Hampson, Middletown, N. Y.
How to Make a Post Card Hdder "
This holder is designed to lay fiat
on the counter or to stack one on top
of the other, keeping each variety of
cards separate, or a number of them
can be fastened on any upright surface
to display either horizontal or vertical
cards.
The holders can be made from sheet
tin, zinc, brass or aluminum. The
dimensions for the right size are given
in Fig. 1 ; the dotted line showing
where the bends- are made. The com-
P*ltcra for Cnttinf the Metal
?>1eted holder is shown in Fig. 3 ' as
astened to a wall. — Contributed by
John F. Williamson, Daytona, Fla.
Do not allow paint that is left over
from a job to stand uncovered. The
can should be tightly sealed and the
paint will be found suitable for use for
several days.
Perfume-Making Outfit
The real perfume from the flowers
is not always contained in the liquid
purchased for
perfume. The
most expensive
perfume can be
made at home
for less than 10
cents an ounce.
The outfit neces-
sary is a large
bottle or glass
jar with a small-
er bottle to fit
snugly into the
open mouth of
the large one.
Secure a small
piece of very fine
sponge and wash
it clean to thor-
oughly remove
all grit and sand.
Saturate the sponge with pure olive
oil, do not use strong oil, and place it
inside of the smaller bottle.
Fill the targe bottle or jar with
flowers, such as roses, carnations,
pansies, honeysuckles or any flower
having a strong and sweet odor. Place
the small bottle containing the sponge
upside down in the large one, as shown
in the illustration.
The bottle is now placed in the sun
and kept there for a day and then the
flowers are removed and fresh ones
put in. Change the flowers each day
as long as they bloom. Remove the
sponge and squeeze out the oil. For
each drop of oil add 2 oz. of grain al-
cohol. If stronger perfume is desired
add only 1 oz. alcohol to each drop of
oil.
Home-Made Duplicator for Box
Cameras
The projecting tube of the lens on
a hand camera can be easily fitted
with a duplicator while the box camera
with its lens set on the inside and
nothing tut a hole in the box does not
have such advantages. A small piece
of heavy cardboard can be made to
lOOglc
produce the same results on a box
camera as a first-class duplicator ap-
plied to a hand camera. The card-
DopUcator Amcbcd
board is cut triangular and attached
to the front end of the camera as shown
in Fig. 1 with a pin about 1 in. above
the lens opening, A rubber band
placed around the lower end of the
cardboartl and camera holds the former
at any position it is placed. A slight
pressure of the finger on the point A,
Fig, 2, will push the cardboard over
and expose one-half of the plate and
the same pressure at B, Fig. 3, will re-
verse the operation and expose the
other one-half. Pins can be stuck in
the end of the camera on each side of
the lens opening at the right place to
stop the cardboard for the exposure.
With this device one can duplicate the
picture of a person on the same nega-
tive. — Contributed by Maurice Bau-
dier, New Orleans, La.
Optical lUusions
The accompanying sketch shows
two optical illusions, the first having
a perfect circle on the outside edge ap-
Tbe Two inadoiii
pears to be flattened at the points A,
and the arcs of the circle, B, appear to
be more rounding. In the second fig-
ure the circle appears to have an oval
form with the distance from C to C
greater than from D to D. A compass
applied to the circles in either figures
will show that they are perfectly
round. — Contributed by Norman S.
Brown, Chippewa Falls, Wis.
Use of Kerosene in Polishing Metals
Anyone who has polished a flat iron
or steel surface with emery cloth knows
how soon the cloth gums and fills up.
The cloth in this condition will do little
or no cutting, A simple remedy for
this trouble is to use kerosene on the
surface. The oil floats away a large
part of the gumming substance and
leaves the emery cloth sharp and clean
to do the best work, also, it seems to
act as a lubricant to keep particles of
metal from collecting on the cloth and
scratching or digging in the surface of
the metal, A very light lard oil is
equally good for this purpose, but not
always easily obtained. A surface
polished where oil or kerosene is used
does not rust so easily as one polished
dry, for the reason that a little oil re-
mains on the metal.
Kerosene is the best to use on oil
stones, being better than heavier oil.
This oil readily floats away all particles
of the feather edge that are liable to
become loosened and forced into the
stone. These particles of metal when
stuck to the stone are the cause of
spoiling it, as welt as nicking the tools
that are being sharpened. Keep the
surface of the stone well oiled at all
times to make the cutting free. — Con-
tributed by Donald A. Hampson, Mid-
dletown, N. Y.
How to Hake Lamps Bum Brightly
For a good, steady light there is
nothing better than a lamp, but like
most everything it must have attention.
After cleaning well and fitting it, place
a small lump of camphor in the oil
vessel. This will greatly improve the
light and make the flame clearer and
brighter. If there is no camphor at
hand add a few drops of vinegar oc-
casionally.
d by Google
A Practical Camera fisr Fifty Cents
Br C. H. Ctaadr
I say for fifty cents, but really this is
an outside estimate. If you possess a
few tools and the rudiments of a shop,
by which is meant a few odds and ends
of screws, brass and nails, you can
really make this camera for nothing.
The camera box is the first considera-
tion, and for this a cigar box answers
every purpose. It is better to use one
of the long boxes which contain a hun-
dred cigars and which have square
ends. This box should be cut down,
by means of a saw and a plate, until
the ends are 4 in. square. Leave the
lid hinged as it is when it comes. Clean
all the paper from the outside and in-
is advised, the box should measure that
size in its internal dimensions.
We now come to the construction
of the most essential part of the camera
— the pin hole and the shutter, which
take the place of the lens and shutter
used in more expensive outfits. This
construction is illustrated in Fig. 4.
Take a piece of brass, about 1/16 in.
thick and 1^ in. square. Bore a hole
in each corner, to take a small screw,
which will fasten it to the front of the
camera. With %-in. drill bore nearly
through the plate in the center, but be
careful that the point of the drill does
not come through. This will produce
side of the box — which may be readily
done with a piece of glass for a scraper
and a damp cloth — and paint the in-
terior of the box a dead black, either
with carriage makers' black or black
ink.
Now bore in the center of one end a
small hole, '/4 i"- or less in diameter.
Finally insert on the inside of the box,
on the sides, two small strips of wood,
Vs by Yt in, and fasten them with glue,
% in, from the other end of the box.
Examine Fig. 1, and see the location
of these strips, which are lettered EE.
Their purpose is to hold the plate,
which may be any size desired up to
4 in. square. Commercially, plates
come 3^ by 3% in., or, in the lantern
slide plate, 3% by 4 in. If it is desired
to use the 3^^ by 3H in- plates, which
the recess shown in the first section in
Fig, 4. Now take a No. 10 needle, in-
sert the eye end in a piece of wood and
very carefully and gently twirl it in the
center of the brass where it is the thin-
nest, until it goes through. This pin
hole, as it is called, is what produces
the image on the sensitive plate, in a
manner which I shall presently de-
scribe. The shutter consists of a little
swinging piece of brass completely
covering the recess and pin hole, and
provided with a little knob at its lower
end. See Fig, 3, in which F is the front
of the camera, B the brass plate and
C the shutter. This is abo illustrated
in the second cross section in Fig, 4.
In the latter I have depicted it as swung
from a pivot in the brass, and in Fig. 3
as hung from a screw in the wood of
the front board ; either construction of your vision when confined within
will be effective. the little frame.
^<J^
«f Aetiod «( PID Hal*
Lastly, it is necessary to provide a
finder for this camera in order to know
what picture
Tou are taking.
Make a little
frame of wire,
the size of the
plate you are
using, and
mount it up-
right (see Fig.
When you want to use this camera,
take it into an absolutely dark room
m
--^yv^^'
^'
Conilruellnt > Pindar fo
5) on top of the camera as close to the
end where the pin hole is as you can.
At the other end, in the center, erect
a little pole of wire half the heightgOf
the plate. If now you look along the
top of this little pole, through the wire
frame and see that the top of the little
pole appears in the center of the frame,
everything that you see beyond will be
Pin Hoh and Shottar CcoitrnctleD
taken on the plate, as will be made plain
by lookmg at the dotted lines in Fig.
5, which represents the outer limits
and insert a plate (which you can buy
at any supply store for photographers)
in the end where the slides of wood
are, and between them and the back of
the box. Close the lid and secure it
with a couple of rubber bands. See
that the little shutter covers the hole.
Now take the camera to where you wish
to take a photograph, and rest it se-
curely on some solid surface. The ex-
posure will be, in bright sunlight and
supposing that your camera is 10 in.
long, about six to eight seconds. This
exposure is made by lifting the little
brass shutter until the hole is un-
covered, keeping it up the required
time, and then letting it drop back into
place. It is important that the camera
be held rigid during the exposure, and
that it does not move and is not jarred
— otherwise the picture will be blurred.
Remove the plate in the dark room and
pack it carefully in a pasteboard box
and several wrappings of paper to pro-
tect it absolutely from the light. It is
now ready to be carried to some one
l:v v^<v.^v_'Vl^_
who knows how to do developing and
printing.
To explain the action of the pin hole
I would direct attention to Fig. 2. Here
F represents the front of the camera,
D the pin hole, AA the plate and the
letters RR, rays front a lighted candle.
These rays of course, radiate in all di-
rections, an infinite multitude of them.
Similar rays radiate from every point
of the object, from light reflected from,
these points. Certain of these rays
strike the pin hole in the front of the
camera, represented here by RRRR.
These rays pass through the pin hole,
and as light travels only in straight
lines, reach the plate AA, forming an
inverted image of the object, in this
case a candle in a candlestick. Mil-
lions of rays arc given off by every
point in every object which is lighted
by either direct or reflected light. To
all practical purposes only one of these
rays from each point in an object can
pass through a minute opening like a
pin hole. This being so, any screen
which interrupts these selected rays of
light will show upon it a picture of the
object, only inverted. If that screen
happens to be a photographically sen-
sitive plate, which is protected from all
other light by being in a dark box, upon
it will be imprinted a photographic
image which can be made visible by
the application of certain chemicals,
when it becomes a negative, from
which may be printed positives. This
camera is not a theoretical possibility,
but an actual fact. I have made and
used one successfully, as a demonstra-
tion of pin-hole photography.
Use for an Old Clock
Remove the haii spring of the clock,
and fasten a spring to one end of the
pawl and a small wire to the other end.
Make a slit in the case of the clock
opposite the pawl. Fasten the spring
on the outside in any convenient way
and pass the wire through the slit to
an eccentric or other oscillating body.
To make the dial, paste a piece of
paper over the old dial, pull the wire
Wck and forth one hundred times, and
make a mark where the minute hand
stops. Using this for a unit divide up
the whole dial. The hour hand has an
inner circle of its own. Put the alarm
hand at a little before twelve and wind
the alarm. When the alarm is un-
K**alntloa S*cord*t
wound the hour hand starts on a new
trip. The clock I used was put on an
amateur windmill and when the hour
hand went around once 86,400 revolu-
tions or jerks on the wire were made,
while the minute hand recorded one-
twelfth of this number, or 7,200. — Con-
tributed by Richard H. Ranger, Indian-
apolis, Ind.
Renewing Dry Batteries
Dry batteries, if not too far gone,
can be renewed by simply boring a
small hole through the composition on
top of each carbon and pouring some
strong salt water or sal ammoniac solu-
tien into the holes. This kink is sent
us by a reader who says that the pro-
cess will make the battery nearly as
good as new if it is not too far gone
beforehand.
If a round brush spreads too much,
slip a rubber band over the upper part
of the bristles.
izocbyGOOgIC
How to Make a Simple Burglar Alarm
Take a piece of any wood about 6 by
8 in. for the base. This may be fin-
ished in any way desired. For the con-
tact points use brass or any sheet metal
-'^
\^
/ I
/ \
i(
\
VI
i
I
E
"'!"
yLj.
\
IMt
,,,
_
door or window and any movement of
it will pull it to the contact point on
the right If the string is cut or broken
the spring will pull the lever to the con-
tact point on the left and thus complete
the circuit. If the string is burned it
will also act as a fire alarm.
How to Fit Corks
Occasionally odd-sized bottles are re-
ceived in stores which require corks
cut to fit them. No matter how sharp
a knife may be, it will leave some sharp
edges after cutting the cork, which will
cause leakage. The illustration shows
three very effective methods of reduc-
ing the size of corks. The one shown
in Fig. 1 is made from two pieces of
%-in. wood fastened together at one
end with a common hinge. Two or
three grooves are cut cross-wise in sizes
desired. The cork is put into the
groove and both pieces are pressed to-
gether, which will make the cork
smaller.
Rolling the cork between two flat
Simple Borgbr Alim
which will be satisfactory. Take a
piece about 2>4 or 3 in. in length and
bend the ends up about J4 in. in a ver-
tical position as shown. Fasten this to
the top of the board using screws or
nails. Under this strip of metal fasten
a copper wire which can be connected
to a binding-post on the board if de-
sired. Take another piece of metal
about 4J^ in. in length and make a
lever of it in the shape shown in the
diagram. Fasten this so that one end
of it will swing freely, but not loosely
between the ends of the other piece
marked C-C. Near the end fasten a
spiral spring, S, which can be obtained
almost anywhere. Fasten the end of
this to the screw marked X. Also
fasten to this screw a copper wire lead-
ing to the binding-post. In the lower
end of the lever make a small hole to
fasten a string through.
This string may be fastened across a
Tbrci Ucthodt tor Reduclni Size of Cork*
surfaces (Fig. 2) is simple and almost
as good as pressing in the grooves. A
cork rolled on the floor (Fig. 3) is a
quick and effective way. A slower and
equally as good way is to soak the cork
in hot water for a short time. — Con-
tributed by L. Szerlip, Brooklyn, N. Y.
Standing at the cylinder end and
looking toward the flywheel of an en-
gine, the wheel will be at the right if
the engine is right-hand.
I:v v^<v.^v_'viv_
Home-Made Crutch
While a fractured bone was healing
in the limb of my boy he needed a pair
of crutches and not being able to se-
cure the right length, I set about to
make the crutches from two broom
handles. I split the handles to within
1 ft. of the end (Fig. 1) with a rip saw,
and then stuck them in a barrel *of
water for three days to make the wood
pliable for bending. A grip for each
stick was made as long as the hand is
wide and a hole bored through the cen-
ter the size of a No. 10 gauge wire.
These grips were placed between the
two halves of each stick at the right
distance for the length of the boy's arm
and a wire run through both split
beneath and close up to the projerting
top. When removed they will leave no
Huitar fot Tim
disfiguring holes. — Contributed by C.
VV. Neiman, New York City.
How to Hake a Trousers Hanger
Secure from your tinsmith a piece of
sheet metal 7 in. wide and 13 in. long.
Cut the metal as shown in Fig. 1 and
make a close bend at the point A, but
not too close to cause it to break. The
piece will then appear as shown jn Fig.
2. Cut a piece from the waste mate-
rial ^ in. wide and zy^ in. long and
bend it around the two pieces B, Fig.
2, so it will slide freely on their length.
Bend the edges C in for % in. to hold
the trousers firmly. Drill a hole
through the top end of B and attach
a wire formed into a hook for use in
hanging on a nail. The bottom end of
the trousers is inserted between the
jaws C and the small ferrule pushed
pieces and the handle then riveted as
shown in Fig. 2. Another piece was
cut as shown at A,, Fig. 3, and nailed to
the upper ends of each half of the
broom handle. — Contributed by Geo,
P, Grehore, Nashville, Tenn.
Home-Made Necktie Holder
The gas bracket is considered a good
place to hang neckties, even if it does
crowd them together. The illustration
shows a better method, a curtain rod
attached to one end of a bureau. Two
long-shanked, square-hooked screws
should be used, so they may be screwed
Cot from Shan llcUl
down to clamp them on the cloth. —
Contributed by A. Levinson, Saginaw,
Michigan.
jOOglc
Easy De^ins in Ornamental Iron Wofk
Many an industrious lad has made
money manufacturing the common
forms of wood brackets, shelves, boxes,
Stands, etc., but the day of the scroti
J^
saw and the cigar-box wood bracket
and picture frame has given way to the
more advanced and more profitable
work of metal construction. Metal
brackets, stands for lamps, gates, parts
of artistic fences for gardens, support-
ing arms for signs, etc., are among the
articles of modem times that come un-
der the head of things possible to con-
struct of iron in the back room or attic
shop. The accompanying sketches pre-
sent some of the articles possible to
manufacture.
First, it is essential that a light room
be available, or a portion of the cellar
where there is light, or a workshop
may be built in the yard. Buy a mod-
erate sized anvil, a vise and a few other
tools, including bell hammer, and this
is all required for cold bending. If you
go into a forge for hot bending, other
devices will be needed. Figure 1 shows
how to make the square bend, getting
the shoulder even. The strip metal is
secured at the hardware store or the
iron works. Often the strips can be
secured at ]ow cost from junk dealers.
Metal strips about % in. wide and V&
in. thick are preferable. The letter A
indicates a square section of iron,
though an anvil would do, or the base
of a section of railroad iron. The bend
is worked on the comer as at B, cold.
If a rounded bend is desired, the same
process is applied on the circular piece
of iron or the hom of an anvil. This is
shown in Fig. 2, at C. This piece of
iron can be purchased at any junk
store, where various pieces are always
strewn about. A piece about 80 in.
long and 4 in. in diameter is about the
right size. The bend in the metal be-
gins at D and is made according to the
requirements. Occasionally where
sharp bends or abrupt comers are need-
ed, the metal is heated previous to
bending.
Although the worker may produce
various forms of strip-metal work, the
bracket is, as a rule, the most profitable
to handle. The plain bracket is shovim
in Fig. 3, and is made by bending the
strip at the proper angle on form A,
after which the brace is adjusted by
means of rivets. A rivet hole boring
tool will be needed. A small metal
tuming or drilling lathe can be pur-
chased for a few dollars and operated
by hand for the boring, or a common
hand drill can be used. Sometimes the
bracket is improved in design by add-
ing a few curves to the end pieces of
the brace, making the effect as shown
in Fig. 4. After these brackets are
made they are coated with asphaltum
or Japan ; or the brackets may be paint-
ed or stained any desired shade.
In some of the work required, it is
necessary to shape a complete loop or
circle at the end of the piece. This may
l:v v^<v.^v_'Vl^_
be wrought out as in Fig. 5. The use
of a bar of iron or steel is as shown.
The bar is usually about 2 in. in diam-
eter and several feet in length, so that
it will rest iinnly on a base of wood or
stone. Then the bending is effected as
at F, about the bar E, by repeated
blows with the hammer. After a little
practice, it is possible to describe al-
most any kind of a circle with the tools.
The bar can be bought at an iron deal-
ers for about 40 cents. From the junk
pile of junk shop one may get a like
bar for a few cents.
A convenient form for shaping strip-
metal into pieces required for brackets,
fences, gates, arches, and general trim-
mings is illustrated at Fig. 6. First
there ought to be a base block, G, of
hard wood, say about 2 ft. square. With
a round point or gouging chisel work
out the groove to the size of the bar,
forming a seat, by sinking the bar, H,
one-half its depth into the wood as
shown. In order to retain the bar se-
curely in position in the groove, there
should be two caps fitted over it and
set-screwed to the wooden base. These
caps may be found in junk dealers*
heaps, having been cast o£f from 2-in.
shaft boxes. Or if caps are not avail-
able, the caps can be constructed from
sheet metal by bending to the form of
the bar, allowing side portions or lips
for boring, so that the caps can be set-
screwed to the wood. Thus we get a
tool which can be used on the bench
for the purpose of effecting series of
bends in strips of metal.
Since the introduction of the laws re-
quiring that signs of certain size and
projection be removed from public
thoroughfares in cities, there has been
quite a call for short sign brackets, ao
termed, of the order exhibited in Fig.
t. These sign-supporting brackets do
not extend more than 3 ft. out from
the building. A boy can take orders
for these signs in almost any city or
large town with a little canvassing. The
sign supporting bracket shown is mere-
ly a suggestion. Other designs may be
wrought out in endless variety. A hook
or eye is needed to sustain the ring in
the sign.
The young man who undertakes to
construct any sort of bracket, supports,
frames or the like, will find that he will
get many orders for lamp-supporting
contrivances, such as shown at Fig. 8.
It is hardly necessary to go into details
for making these stands, as every part
is bent as described in connection with
the bending forms, and the portions are
simply riveted at the different Junc-
tures. Both iron and copper rivets are
used as at I, in Fig. 9, a cross sectional
view.
The best vtiy^ is to bore straight
through both pieces and insert the
rivet. In some cases the rivet is head-
ed up in the bore and again washers
are used and the heading effected on
the washer. Copper rivets are soft and
easily handled, but are costly as com-
pared with iron rivets.
Good prices are obtained for the
guards for open fireplaces made in
many varieties in these days. The re*
.,:z:cbv^jOOglC
turn of the open fireplace in modem
houses has created a demand for these
g;uards and in Fiff. 10 we show a design
Tor one of them. The posts are made
sufficiently stiff by uniting two sides
with rivets. The ends at top are looped
as shown, while the ends or butts at
the base are opened out to make the
feet. Rings are shaped on forms and
are then riveted to the base cross-piece
as illustrated. Crosses are made to de-
scribe to central design and the plan
is worked out quite readily with the
different shapes.
The making of metal fire grate fronts
has proven to be a very interesting and
profitable occupatioQ for boys in recent
times. Not long ago it was sufficient
for the ingenious youth to turn out
juvenile windmills, toy houses and var-
ious little knickknacks for amusement.
The modern lad wants more than this.
He desires to turn some of his product
into cash. Therefore we present some
of the patterns of fire grates which boys
have made and can make again from
scrap iron, with few tools and devices,
and find a ready market for the same
as soon as they are made. Figure 11
is a sketch of a form of fire grate bar
or front that is constructed with a se-
ries of circles of strip metal. The best
way is to go to the hardware store or
iron dealer's and buy a quantity of
Vi-\n., ^-in,, and %-m. iron, about %
to ■A-in. thick. In fact I'r-in. metal
would do in many cases where the
parts are worked out small in size.
The Vs-ia. metal is very strong. Then
after getting the supply of strip metal
in stock, procure the usual type of
metal worker's hammer, a cheap anvil,
a. 9-lb. vise, a cold chisel, a file or two,
and a round piece of shaft iron, about
3 in. diameter and 2 to 3 ft. long. This
piece of iron is represented at B, Fig,
12.
The iron is held in position by means
of the straps of metal C, C, which are
bent over the shaft tightly and grip the
board base with set or lag screws as
shown. The wooden base should be
about 2 in. thick and large enough to
make a good support for the iron shaft.
The process of bending the rings in this
way is as shown. The piece of strip
iron is g^-asped at D, Then with the
hammer the iron is gradually worked
cold about the mandrel as at E until
the perfect form is acquired. After the
form is finished, the strip at the ter-
minus of the ring is cut off. In order
to get a steady base the wooden part
may be bolted to a bench. In Fig. 13
is shown the method of clipping off the
completed ring. The cold chisel is held
upright, and by delivering several
blows with the hammer upon the same,
the point is caused to chip through the
metal and release the ring. The shaft
or mandrel is marked G. The cold
chisel is indicated at I and the position
l:v v^J>^^v_'Vlv_
where the hand grasps the strip is at H.
The final operation in shaping the ring
is by driving the protruding cut, lip
down, to the common level of the oppo-
site point, thus giving us the finished
ring with the lips closed on the man-
drel as at J, Fig. 14, These rings can
be turned out in this way very speedily.
The next operation involves the process
of uniting the rings in the plan to shape
the design. The design work is often
worked out ahead and followed. Some
become so proficient that they can de-
velop a design as they proceed.
Figure 11 is a design of grate front
used for various purposes in connection
with grate fires. The series of rings are
united by a rivet between each at the
joining point. With thin metal the
holes can be punched with an iron
punch and hammer on an anvil where
there is a hole to receive the point of
the punch after the punch penetrates
the metal. For the heavier forms of
metal a drill is necessary. A metal
drill and brace can be purchased very
cheaply for this work. After drilling
the holes, the parts are erected and the
rivets inserted and headed up as each
addition is made. Thus the series of
rings are united and then the side pieces
are similarly riveted. The points at the
top are then worked out and joined on.
These points are filed down to the nec-
essary taper after the union is effected.
The finishing work involves smoothing
rough places with a file and painting.
Asphaltum makes a good black finish.
Some of the best designs of grates are
bronzed. Some are silvered. The dif-
ferent designs are finished as desired
by customers.
Figure IS is another design of grate
in which the process of shaping the
rings is like that in the first design.
There are some half circles in this pat-
tern and these are framed by shaping
the same about the mandrel with the
hammer. In order to get the shoulders
close and the circle complete it is nec-
essary to heat the metal, A coke fire
can be made in a hole in the ground.
Then procure a tin blowpipe and blow
the flame against the metal at the point
to be bent. This metal will become red
hot very soon, and can be bent readily
against the anvil and the circular form.
Let the metal cool off on the ground
after heating. Fig. 16 is another design
which can be wrought out. The middle
adjustment is wire screen work which
may be bought at a hardware store and
set into the position shown. Fig. 17
shows a chipping off device useful in
connection with this work. Metal chip-
pers can be bought at any tool store.
The chipper is placed in the jaws of
the vise as at K, and secured there.
The strip of metal in process of cutting
is marked M. The hammer head is
caused to strike the metal just over the
cutting edge of the chipper. The quick.
■^'iV'
hard blow causes the cutting edge to
penetrate far enough to sever the piece.
Bending cold with a wooden form is
done as in Fig. 18. The wooden form
is marked P and is about 8 in. wide
and 7 in. high, forming a one-sided oval
shape. There is a pin R set into the
base board of the oval form and the
strip of metal for bending is grasped at
S and the other end is inserted back of
the pin R. By applying pressure, the
strip of metal is bent to the form.
Figure 19 shows the hour>glass wood
bending form, made by selecting a
piece of hard wood block, about 6 in.
square and boring through with an inch
bit. Then the hole is shaped hour-glass
like. The view is a sectional one. The
block is placed in a vise and the strip
for bending is inserted as at T.
The strip of metal is grasped at W
and can be bent to various forms by ex-
erting pressure. Fig. 20 is another type
of fireplace front, constructed by unit-
ing the shaped metal pieces. In fact an
almost endless variety of designs can
be wrought out after the start is once
made. A good way to figure the price
on the grate is to add up the costs of
the parts and charge about IS cents
per hour for the work.
How to Make a Water Wheel
Considerabfe power can be developed
with an overshot water wheel erected
as in Fig. 1, This wheel is made with
blocks of wood cut out in sections as
indicated by the lines, so as to form the
circle properly. The wheel can be
OTCnhot ud Undcnhet Wbttli
about 24 in. in diameter to produce re-
sults and about 10 in. wide. Get some
tin cans and attach them around the
wheel as shown. Bore the wheel cen-
ter out and put on the grooved wood
wheel, P, and a rope for driving, R.
This rope runs to a wooden frame in the
manner illustrated. The water is carried
in 3 sluice affair, N, to the fall, O, where
the water dippers are struck by the vol-
ume and from S to 4 hp. will be pro-
duced with this size of wheel if there is
sufBcient flow of water. This power
can- be used for running two or three
sewing machines, fans, fret-saws, and
the like. Another form of water wheel
is shown in Fig. S. This is driven by
an underflow of current. This type of
wheel can be made on lines similar to
the other, only that th'; paddles are of
wood and extend outward as shown.
The wheel is supported in a bearing on
the piece S. A belt, T, communicates
the power to the wheel V and from here
the power is carried to any desired
point.
How To Build An Imitation Street
Car Line
An imitation street car line may
sound like a big undertaking, but, in
fact, it is one of the easiest things a boy
can construct, does nut take much time
and the expense is not great. A boy
who lives on a farm can find many fine
places to run such a tine, and one in
town can have a tine between the house
and the barn, if they are some distance
apart.
Often all the boards and blocks re-
quired can be had for helping a carpen-
ter clear away the rubbish around a
new building. Wheels and parts of old
bicycles, which can be used in so many
ways, can be found at a junk shop at
very low prices, wheels in good repair
are not expensive. For the car for the
street car line try to find a set of wheels
having axles, but if you cannot find
such, make shafts of hard wood, aboiit
3 in. by 2*^ in. and by means of a jack-
knife turn, or shave down the ends to
receive the hub bearings of the wheels.
Fasten the wheel hubs securely over
l:v v^JV.-'v.'Vl'
■a"
the ends of the wood with pins or little
Iwlts, or if the wheel bearing is of such
a nature that it revolves on its
own journal, the journal can be
fastened to the end of the wood
piece. Each of the wheels should
be provided with a sprocket ; any
chain sprocket of a bicycle may
be used. Fasten these sprockets
on the outside of the wheels as
shown in Fig. 1. They can be set
on over the bearing end and se-
cured with a set screw, or the
original key can be employed.
It is best in cases like this to use
the original parts. Make the floor
of the car of pieces of boards
placed on the axles and nailed,
screwed or bolted, as shown at A. To
erect the frame, place uprights, C C C
C, in position as shown, fastening the
ends to the base-boards, and making
the roof line
as at B, then
put in the
cross - pieces,
G G. Seats, E
E, are simply
boxes. The
drive of the
car is effected
by using the driving sprockets, D D,
fitted to the crosspieces, G G, with the
original bearings. The parts are there-
by secured to the car and the chain
placed on.
Key the cranks for turning to the
upper sprocket's shaft and all is ready.
If there are sprocket gears and cranks
on either side, four boys may propel
the car at one time. Considerable speed
can be made on smooth roads, but it is
the best amusement to run a car liae
on wooden tracks with a brake con-
sisting of a piece of wooden shaft, pass-
ing through a bore in the car floor, and
fitted with a leather covered pad as at
H. A spiral spring holds up the brake
until pressure is applied by foot power,
when the brake contacts with the
wooden track and checks the car.
The track plan is illustrated in Fig.
2. Get some boards and place them end
for end on other pieces set as ties. The
main boards or tracks, J J, can be about
6 in. wide, to the edges of which nail
strips about % in. wide and about the
CoDitructlan at Cir
same height. The ties, I I, can be al-
most any box boards. Wire nails are
the best to use in putting the tracks
together. The sprocket connection
with the chain is shown in Fig. 3. This
consists of the sprocket gear on the
propelling shaft, and the crank. The
pedals may be removed and a chisel
handle, or any tool handle, substituted,
so as to afford means for turning the
n n
^
J
SedioB at the Track
crank by hand power. Great fun can
be had with the road, and, furthermore,
it can be made renumerative, as boys
and girls can be given rides for a penny
each,
Apply a coat of raw starch water to
a dirty wall before painting ; this, when
dry, may be brushed or wiped off.
A good varnish for electric terminals
is made of sealing wax dissolved in
gasoline. To prevent brittleness add a
little linseed oil.
joglc
Msthod «f Applying tha Trlangla Maaaura
Measurior the Helgrht of a Tree
"Near the end of the season our boy
annonnced the height of our tall maple
tree to be 33 ft.
'"Why, bow do you know?" was the
general question.
" 'Measured it,'
"'How?'
" "Foot rule and yardstick.'
"Ton didn't climb that tall tree?*
his mother asked anxiously.
"'No'm; I found the length of the
shadow and measured that.'
" 'But the length of the shadow
changes.'
" 'Yea'm ; hut twice a day the shad-
ows are just as long as the things them-
selves. I've been trying it all summer.
I drove a stick into the ground, and
when its shadow was just as long as the
stick I knew that the shadow of the
tree would be just as long as the tree,
and that's 33 ft.' "
The above paragraph appeared in one
of the daily papers which come to our
ofRce. The item was headed, "A Clever
Boy." Now we do not know who this
advertised toy was, but we knew quite
as clever a boy, one who could have got
the approximate height of the tree with-
out waiting for the sun to shine at a
particular angle or to shine at all for
that matter. The way boy No. % went
about the same problem was this : He
got a stick and planted it in the ground
and then cut it off just at the level of
his eyes. Then he went out and took a
look at the tree and made a rough esti-
mate of the tree's height in his mind,
and judging the same distance along
the ground from the tree trunk, he
planted his stick in the ground. Then
he lay down on his back with his feet
against the standing stick and looked
at the top of the tree over the stick.
If he found the top of stick and tree
did not agree he tried a new position
and kept at it until he could just sec
the tree top over the end of the upright
stick. Then all he had to do was to
measure along the ground to where his
eye had been when lying down and that
gave him the height of the tree.
The point about this method is that
the boy and stick made a right-angled
triangle with boy for base, stick for
peipendicular, both of the same length,
and the "line of si^t" the hypotenuse
or long line of the triangle. When he
got into the position which enabled him
to just see the tree top over the top of
the stick be again bad a right-angled
triangle with tree as perpendicular, his
cye'a distance away from the trunk,
the base, and the line of sight the
hypotenuse. He conld measure the base
line along the gronnd and knew it must
equal the vertical height, and he could
do this without reference to the sun.
It was an ingenious application of the
well known properties of a right-angled
triangle, — Bail way and Locomotive En.
gineer.
White putty on a black window
frame can be made to harmonize by
rubbing the fresh putty with a piece of
cotton dipped in lampblack.
Sandpaper may be kept from slip-
ping under the hand by chalking the
back.
d by Google
An Interesting Electrical
Experiment
Anyone possessing a battery having
an electromotive force of from 4 to 20
volts can perform the following ex-
periment, which is particularly inter-
esting on account of the variation of
results with apparently the same
conditions.
Immerse two pieces of brass in a
strong solution of common salt and
water. Connect one piece to the posi-
tive wire and the other to the negative,
taking care that the brass pieces do
not touch each other.
After the current has passed one
• ir two minutes, the solution will be-
come colored, and if the process is con-
tinued a colored pigment will be pre-
cipitated. The precipitate varies con-
siderably in color and may be either
yellow, blue, orange, green or brown,
depending on the strength of the cur-
rent, the strength of the solution, and
the composition of the brass.
Novelty Chain Made from a Match
The accompanying engraving shows
what is possible to do with a penknife.
A small chain composed of several
links was cut from the wood that
forms the match.
CGIass doors in bookcases may he
kept from swinging open by boring a
hole, about Vi '"■ deep, either at the
top or bottom in the edge of the door,
2 in. from the closing edge, and insert-
ing an ordinary cork, allowing a small
portion to project and rub on the
facing.
Restoring Broken Negatives
Whoever has the misfortune to
break a valuable negative need not de-
spair, for the damage can be repaired
most effectively. In case the negative
be broken into many pieces, take a
clean glass, the same size as the broken
negative, and put upon this the pieces,
joining them accurately, says Camera
Craft. Put another clean glass on top
of this and bind the three together
with passe-partout binding or gummed
strips of ordinary paper, as one would
a lantern slide, and cover the glass
edges.
Next make a transparency of this —
in the camera, of course — and if it is
done right, the positive will only show
the cracks as dark and light lines. The
k)og Ic
dark lines are removed with the etch-
ing knife and the light ones with the
retouching penciL From this trans-
parency another negative can be made,
or as many negatives as necessary, by
either contact or in the camera, and
if the work on the (:las8 positive was
done carefully, no trace of the break
should be seen on the finished nega-
tive. If the negative is broken in two
or three larger pieces only, a contact
positive may be made in the printing
frame without binding, by using a
clean glass in the latter, upon which
the pieces are put together, face up,
and a dry plate exposed in contact
with them in the dark .room. The
accompanying engravings show a print
before and after repairing a broken
negative in this i
Coin and Tumbler Trick
The accompanying sketch shows
how a good trick may be easily per-
formed by any one. Lay a piece of
—M—
.yl3
m
■ SI ■!
heavy paper that is free from creases
on a board or table. Secure three tum-
blers that are alike and stick a piece
of the same heavy paper over the open-
ings in two of them, neatly trimming
it all around the edges so as to leave
nothing of the paper for any one to
see. Make three covers of paper as
shown in Fig. 1 to put over the tum-
blem. Place three coins on the sheet
of paper, then the tumblers with cov-
ers on top of the coins, the unprepared
tumbler being in the middle. Kow lift
the covers ofE the end tumblers, and
you will see that the paper on the open-
ings covers the coins. Replace the cov-
ers, lift the middle one, and a coin will
be seen under the tumbler, as the open-
ing of this tumbler is not covered.
Drop the cover back again and lift the
other tumblers and covers bodily, so
that the Epectators can see the coins,
remarking at the same time that yon
can make them vanish from one to the
other. The openings of the tumblers
must never be exposed so that any
one can see them, and a safe way to
do this is to keep them level with the
table.
Another Way to Renew Dry
Batteries
There are many methods of renew-
ing dry batteries, and I have used sev-
eral of them, but I found the follow-
ing the best: Remove the paper
cover and with a ^-m. drill make
about six holes around the side of the
zinc, about J4 in. from the bottom.
Then drill another row of holes about
half way up the side and put the bat-
tery to soak in a solution of sal am-
moniac for 48 hours. Then remove
and plug the holes up with hard soap,
and replace in the paper box, when it
will give nearly as strong a current as
when new.
Simply Made Wire Pozzle
The object of this simply made wirt
puzzle -is to get the ring off, which is
not easy unless you know how. To do
so it is necessary to move ^
the triangle with ring
to one of the hinge
joints and fold the puz-
zle. Then slip the ring
off the triangle over the
hinge joint and it will
slip ^1 around and
off at the other hinge.
Diabolo is pronounced Dee-ab-lo.
d by Google
Kepairing Box Cameras
In repairing the inner part of box
cameras which have been broken loose,
use a binding of strong black cloth
well glued in place. This will mate-
rially strengthen the joints where the
wooden pieces are so' thin that it is
impossible to use brads in holding
them together.
Do not forget to thoroughly clean all
the old glue or cement from the joints
with a rasp or sandpaper before at-
tempting a repair.
A Fishhook Box
A box that may be used to hold fish-
hooks, sinkers, matches or any small
articles, can be made from two empty
shot-gun cartridges as shown in the
sketch. The paper is cut from the
brass part of one shell at the place
marked A, Fig. 1, and the brass part.
Fig. 8, is used for a cap on the other
is enough wire twisted to form a good
handle, pass the ends around the can
shell (Fig, 3). Coating the box with
shellac will improve its appearance. —
Contributed by Abner B. Shaw, N.
Dartmouth, Mass.
A Tin Drinkii^ Cup for the Camp
If in need of a drinking cup while
camping, a temporary cup can be made
of a tomato or baking-powder can.
Punch two holes near the top of the
can ; bend a piece of wire and place the
ends through the holes as shown at A
in the sketch. Pull the ends to draw
tUodl* oo ■ Tin Can
at the bottom and twist them together
on the opposite side. — Contributed by
W. A. Lane, El Paso, Tex.
A Bookmark
A very handy bookmark can bt
made by attaching a narrow ribbon to
an ordinary pa-
per clip and
using it as
shown in the
sketch. The clip
is slipped over
the binding in
the back of the
book as shown in the sketch. — Con-
tributed by Chester E. Warner, Kala-
mazoo, Mich.
Kitchen Knife Sharpener
A good serviceable knife sharpener
may be made from a piece of steel cut
as shown with two screw holes drilled
for fastening it to a piece of wood or to
a table. The knife is drawn through
and sharpened on either side. Both po-
sitions of the knife are shown. The
the loop close up on the inside of the steel is hardened before fastening it in
tin and then twist the ends to form place. — Contributed by George Mad'
a handle as shown at B. When there sen, Chicago, 111.
jOOgIc
Devrces of Winter %orts— ifow to Msike and Use Them
In the north the red-cheeked boy
digs a hole in the ice and while he
amuses and invigorates himself at skat-
ing, the fish underneath the icy sheet
fasten themselves to
the hook he has let
down through a hole.
The boy used to sit
over the hole in the
ice and wait for the
fish to bite, but that
became too slow and
detracted too much
from his pleasure at
■Tip-Up Pol." skating. So his in-
ventive genius set it-
self to work and the "tip-up" and "sig-
nal" shown in the illustration was the
result. When the fish is not biting the
flag lies flat on the ice, but as soon as
a fish has swallowed the hook the flag
pole stands straight up wafting its
bright colored flag to the breezes and
all the boys on the skating pond read
the word "fish," The fish is drawn up,
the hook rebaited and the youthful fish-
erman resumes his pleasures on the
ice. Often a score or more of these
"tip-ups" are planted about the edges
of the ice pond, each boy bringing his
fishing tackle with his skates and thus
finding a double source of amusement.
Maybe one boy will thus have a half
dozen different lines in the water at
once, it being easy to watch them all
together.
The device by
which the fish is
made to give its own
signal when caught
is exceedingly simple
and any boy can
make it. Procure a
light rod about 2 ft.
in length and to one
end fasten a small
-Tip.Up"Pi«,c»,h. flag- made of any
bright colored cloth.
Bind the rod at right angles to another
stick which is placed across the hole,
so that a short piece of the flagrod pro-
jects over the cross stick. To this short
end fasten the fishing line. Be sure and
use strong string in binding the two
rods together, and also take care that
the cross stick is long enough to permit
several inches of each end to rest on
the ice. After fastening the line to the
short end of the rod, bait the hook with
a live minnow or other suitable bait
and let it down through the hole. When
the fish is hooked the flag will instant-
ly raise and wave about strenuously
until the fish is taken from the water.
"Jiunping-Jack" Fisherman
If the small boy has a "jumping-
jack" left over from Christmas, he ma^
. make this do his
fishing for him
and serve as well
as the "tii)-up," or
he can easily make
the jumplng-jack
himself independ-
ent of Santa Claus.
The string which
is pulled to make
the joints move is
tied securely to
]>unptiic-]*ek Fiiiuniian the fishing line;
the hook is baited and lowered into the
water through a hole in the ice. The
"jumping-jack" waves his legs and
arms frantically to notify the boys
when the fish is biting. The "jump-
ing-jack" is also used for fishing in
summer time by placing it on a float
which is cast into the water.
Merry-Go-Round Whirl on Ice
A German device for the amusement
of children is a whirl on an ice merry-
go-round. It is made by placing a
vertical shaft or stake, provided with a
couple of old cart-wheels, in a hole in
•■he ice. One wheel acts as a turning
base and prevents the shaft from sink-
ing into the pond, and the other forms
a support for the long sweep attached
for propulsion purposes, and should be
fastened to the shaft about 3 ft. above
the base wheel. The sleds are made
fast in a string to the long end of the
sweep, which when turned rapidly
l:v v^<v.^v_'Vl^_
causes the sleds to slide over the ice in
a circle at a high speed.
If the sweep is long enough to have
each end from the shaft the same
length, two strings of sleds may be at-
tached, which will balance the device
and make the turning much easier.
The Running Sleigh
Another winter sport, very popular in
Sweden, and which has already reached
America, is the "running sleigh," shown
in the illustration. A light
sleigh is equipped with long
double runners and is pro-
pelled by foot power. The
person using the sleigh
stands with one foot upon a
rest attached to one of the
braces connecting the run-
ners and propels the sleigh
by pushing backward with
the other foot. To steady
the body an upright support
is attached to the runners.
The contrivance can be used
upon hard frozen ground,
thin ice and snow-covered
surfaces, and under favor-
able conditions moves with
remarkable speed. The "running
sleigh" has a decided advantage over
skis, because the two foot supports are
braced so that they cannot come apart.
Any boy can make the sleigh.
The Winged Skater
With the actual speed of the wind a
skater may be hurled along the ice if he
is aided by sails. He has been known
to travel at the rate of 40 miles an hour.
of excitement, is not attended with dan-
ger. The sails are easily made, as the
illustrations and description will show.
Secure two large thin hoops about 4
ft. in diameter. They may be obtained
from an oM hogshead or by bending
thin strips. For each hoop select a
piece of strong cane about % in. in di-
ameter to constitute the fore and main
masts or cross-yards. Extend these
across the center of the hoop and fasten
each end firmly to the hoop's sides. For
Frame far SkBter'i SaUi
and tlie sport while affording the limit
RnnnlnK Sldsb
the middle of each cross-spar make a
cleat and lash it on firmly. The main
spar should also be made of two pieces
of strong cane, each about QYz ft. long.
Bind them together at each end so that
the large end of one is fastened to the
small end of the other. ■
Next comes the attaching of the sails
to the separate masts. The sails
should be made of strong sheeting or
thin canvas. Tack the cloth to the hoop
on the inner side after
it has been wrapped around
the hoop two or three
times.
Now the main spar
should be attached by
springing it apart and slip-
ping the cleats of the cross-
spar between the two
pieces. Bind the inner
sides of the hoops tightly
together by means of a very
strong double cord, as
shown in the figure. Then your sail
i-'^jOi
ogle
is ready for the ice pond. See that your
skates are securely fastened, raise your
Sktur*! SalU Finuhed
sail and you will skim along the ice as
lightly as a bird on the wing. With a
little practice you will learn to tack and
guide yourself as desired.
Plan ol let Bott, S*U «Bd Rudder
If the hoops cannot be easily obtained
the sails may be made equally effective
by using the main spar and fore and
main masts as herein described, mak-
ing the sails square shaped instead of
' round and leaving off the
hoops. In this case the sails
should be securely bound
with strong tape. Attach a
corner to each end of the
cross-spar, and a comer to
the outer end of the main
spar. The remaining comer
of each then appears oppo-
site to each other, and should
be fastened together by
strong cord in the same man -
ncr as the hoops. In this case the sails
may be left off until after the frame is
entirely put together and then fastened
on to the spars by buttons.
A more simple sail may
be made according to the
plans illustrated in the
lower drawing. It is made
by binding together in the
center the halves of two
strong hogshead hoops, or
two bent poles are better.
If possible the sail should
be about 8 ft. long and 4 ft.
wide. Fasten on the sail at
the four corners. The rig
will convey two persons
and is more easily con-
stmcted than any other.
Ice Boating
But the sport that is
greatest of all, the one that
used to be part of the life
of every northern boy, and
which is being revived in
popularity after years of
stagnation, is ice boating.
With the aid of old skates,
pieces of board and an old
sheet or a small bit of can-
vas, any boy possessed of
ordinary mechanical genius
may make an ice boat. The
frame of the boat should be
made something in the
form of a kite. The center-
board should be 4 or 5 ft. long, 6 in.
wide and 2 in. thick. The cross board
may be of a piece of 1 by 6-in. plank 3 ft
>yGooglc
long. Fasten these with braces of
small stout strip, as shown in the draw-
ings, and screw the cross-piece securely
to the center-board. Bore a hole in the
center of the intersection for the mast
pole. The seat may be made of a piece
of strong cloth or leather. Three
skates are fastened on to either side
of the cross-board and one to the rear
end of the center-board, the latter of
which is to operate as a rudder. In
attaching the skates first make a couple
of runner blocks, each 6 in. long and
3 in. wide. Bore holes in them for the
straps of the
each end.
, In making the rudder hew down a
piece of scantling 1 ft. long until it
assumes the shape of a club with
a flat base. Nail a strip of wood firmly
to this base, and to the strip fasten the
skate. Run the top of the club through
a hole bored in the stern of the center-
board. Then make the helm by boring
a hole in one end of a strip of soft board
about 1 ft, long, and through this hole
pass the club or rubber-pole and fasten
it so it may be shifted when desired.
Make the sail out of an old sheet, if it
be strong enough, piece of canvas, or
any such substance and attach it to the
mast and sprit as shown in the illus-
tration, and guide it by a stout string
attached to the lower outer corner. As
an ice boat will travel faster than the
wind, some care and considerable skill
is necessary. Unless you are accus-
tomed to managing a sail boat, do not
select a place in which to learn where
there are air holes or open water. To
stop the boat throw the head around
into the wind, same as you would with
a sail boat. If the wind is strong the
occupants of the boat should lie flat on
their stomach.
Coasters and Chair Sleigba
Make your own sled, boys I There is
no use in buying them, because your
hand-made sled is probably better than
any purchased one and then you can
take so much more ^v,
pride in it when you W''"'
know it is of your
own construction.
There are so many
different designs of
sleds that can be
made by hand that "^"^ ""^
the matter can be left almost entirely
to your own ingenuity. You can make
one like the bought sleds and face the
runners with pieces of an iron hoop
which will answer every purpose. A
zirr
3SZ
mn
O
Fi(, B— Poldinc Cbtit Slcifh Bottom
good sled for coasting consists simply
of two barrel staves and three pieces of
board as shown in the picture. Fig. 1.
No bought sled will equal it for coast-
ing and it is also just the thing for car-
rying loads of snow for building snow
houses. The method of its construc-
tion is so simple that no other descrip-
tion is needed than the picture. You
lOOglc
can make a chair-sleigh out of this by
fitting a chair on the cross board in-
stead of the long top board or it will
be still stronger if the top board is
allowed to remain, and then you will
have a device that can readily again be
transform e d
into a coast-
ing sled. In
making the
chair - sleigh
it is neces-
sary, in or-
der to h o 1 d
Pit 4-FoidEiij ch.ii the chair in
Sl.i,b o^ p,^^^_ ,^ ^^jj
four L-shaped blocks on the cross
boards, one for each leg of the chair.
Skating along over the ice and pushing
the chair in front of him the proud pos-
sessor of a chair-sleigh may take his
mother, grown sister or lady friend
with him on his outings, and permit
her to ride in the chair.
Folding Chair Sleigh
A folding chair sleigh is even more
enjoyable and convenient than the de-
vice just described. It the ice pond is
far from home this may be placed un-
der your arm and carried where you
like.
The illustrations. Figs. 8 and 3, show
all the parts as they should look before
PIc ■— Poldinf Chill Bldtk CloKd
being joined together. The seat may
be made of a piece of canvas or caqiet.
The hinges are of leather. Figure 4
shows the folding chair sleigh after it
has been put together. Skates are em-
ployed for the runners. The skates
may be strapped on or taken off when-
ever desired. When the chair is lifted
the supports slip from the notches on
the side bars and fall on the runner
bars. The chair is then folded up so
that it can be carried by a small boy.
With regular metal hinges and light
timbers a very handsome chair can be
constructed that will also afford an
ornamental lawn chair for summer.
The Toboggan Sled
When the snow is very deep a to-
bo^an sled is the thing for real sport.
The runners of the ordinary sled break
through the crust of the deep snow,
blocking the progress, and spoiling the
fun. The toboggan sled, with its broad,
smooth bottom, glides along over the
soft surface with perfect ease.
To make the toboggan sled, secure
two boards each 10 ft. long and 1 ft.
wide and so thin that they can be easily
bent. Place the boards beside each
other and join them together with cross
sticks. Screw the boards to the cross
stick from the bottom and be sure that
the heads of the screws are buried deep
enough in the wood to not protrude, so
Fig. 8 — TliB Toboisao
that the bottom will present an abso-
lutely smooth surface to the snowl
Fasten two side bars to the top of the
cross sticks and screw them firmly. In
some instances the timbers are fastened
together by strings, a groove being cut
in the bottom of the boards so as to
keep the strings from protruding and
being ground to pieces. After the side
bars are securely fastened, bend the
ends of the boards over and tie them to
the ends of the front cross bar to hold
them in position. See Fig. 6. The
strings for keeping the boards bent
must be very strong. Pieces of stout
wire, or a slender steel rod, are even
better. The toboggan slide is the fa-
vored device of sport among the boys
in Canada, where nearly every boy
knows how to make them.
The Norwegian Ski.
You have often read of the ski, the
snowshoe used by the Norwegians and
other people living in the far north.
With them the men and women glide
down the snow -cove red mountain
sides, leap across ditches, run races and
have all kinds of sport. They are just
l:v v^<v.^v_'Vl^_
as amusing to the American boy who
has ever learned to manipulate them,
and it is wonderful how much skill can
be attained in their use. Any boy with
a little mechanical ingenuity can make
a pair of skis (pronounced skees). They
can be made from two barrel staves.
Select staves of straight grained wood.
Sharpen the ends of each and score
each end by cutting grooves in the
wood, as shown in the cut. Fig. 7. A
pocket knife or small gouge will suffice
for this work. Then smear the end of
the staves with oil and hold them close
to a hot fire until they can be bent so
as to tip the toes upward, as shown in
the picture. Fig. 7. Then with a cord
bind the staves as they are bent and
permit them to remain thus tied until
they retain the curved form of their
own accord. Now screw on top of each
ski a little block, just broad and high
enough to fit in front of the heels of
yovir shoe. Fasten a strap in front of
- ■n.^
2E
besides the old bed. The tools needed
are a saw, hammer and a screwdriver.
The head-board, if too high, can be cut
Homc-llaito Skb
each block through which to slip your
toes, and the skis are made. The inside
of the shoe heel should press firmly
against the block and the toe be held
tightly under the strap. This will keep
the skis on your feet. Now procure a
stick with which to steer and hunt a
5now bank. At first you will afford
more amusement to onlookers than to
yourself, for the skis have a way of try-
ing to run in opposite directions, cross-
wise and various ways, but with prac-
tice you will soon become expert in
their manipulation.
Home-Made Settee
Many people have old wooden beds
stored away which can easily be made
into handy settees like the one shown
in the accompanying photograph. A
few nails and one-half dozen 3-in.
screws are all the materials necessary
BittM Madi trom Old Woodtn B*d
off and some of the ornaments replaced.
The footboard must be cut in two to
make the ends or arms of the settee.
The side rails and a fiw of the slats are
used in making the seat. — Contributed
by Wm. F. Hild, Lake Forest, 111.
Enameling a Bicycle Frame
Make an enamel by mixing 2 oz.
burnt umber with 1 qt. boiled oil, heat-
ing, and then adding 1 oz. asphaitum.
Keep the mass hct until thoroughly
mixed, says the Master Painter. Thin
with turpentine while still hot
Use a camel's hair brush for applying
the enamel and allow it to set; then
place the article in an oven, bake for
six or eight hours at a temperature of
250 deg. F. When cool rub down with
steel wool. Apply a finishing coat and
allow it to bake eight hours at Z50 deg.
F. Rub down with a soft rag, varnish
and bake again at 200 deg. F. Heat
and cool the frame gradually each time.
Black enamel is easiest to apply and
bakes hardest, but requires a tempera-
ture of 300 deg. Colors can be baked
at from 200 to 250 deg.
How to Hake a Sewing Bag
A very practical and novel sewing
bag for odds and ends necessary for
mending, etc., can be made of a fold-
ing camp stool. If an old stool is not
smaller than the axles. The two sid«
pieces are fastened tc^ther with a
board nailed on the top edges, as
shown. This board also furnishes the
flat top for the shoe sole. Two straps
are attached for fastening the skate to
the shoe. — Contributed by Thos. De
Loof, Grand Rapids, Mich.
Cwnp.Stool Wotk Bas
at hand, a new one can be purchased
for 25 cents. Remove the top or seat,
which is usually made of a piece oit
carpet, then make a bag as shown in
Fig. 1 and stitch a heavy cord around
the top to make it strong. Make pock-
ets on the inside as shown and nail the
bag to the two crosspieces on which
the ends of the carpet were tacked.
Large, brass furniture nails should be
used. Attach a small hook and eye
on each end and fasten two leather
handles to the crosspieces.
Such a bag requires little room when
folded and can be stored in a closet
when not in use.— Contributed by Jo-
seph Ledwinka, Philadelphia, Pa.
Home-Made Roller Skates
The rubber-tired wheels of an old
carpet sweeper can be used to advan-
tage in malnng a pair of roller skates.
In Fig. 1 is shown how an iron washer
or two may be fastened to the wood
with a piece of sheet metal to support
Adjuster for Flexible Electric Wires
The accompanying illustration shows
an adjuster for changing the drop of an
electric light. The main feature of this
adjuster is that it can be removed from
the cord at any time. The adjuster
is made from a piece of wood. % in.
thick, 2 in. wide and 3 in. long. A ^4'
in. hole is bored in the center near each
end of the wood and a slot cut from
the short axles of the wheels. The
wheels are oiled through the holes A
and B, Fig. 2. These holes should be
Can B« Takaa ftoin tlw Cwd
the holes to the outside edge, as shown
in Fig. 1. It is attached to the flexible
cord as shown in Fig. 2. — Contributed
by J. J. Voelcker, Decatur, III.
Bfaking Photographs on Watch
Dials
Beat to a foam the white of an egg,
with the addition of a little ammonia.
Add 9 oz. and 3 dr. of water and beat
again. After the egg has settled, filter
and let the liquid run over the dial,
which has been previously cleaned with
ammonia. When the surplus has run
off, coat with the mixture and allow to
dry.
A sensitive collodion is now produced'
as follows: Dissolve 9 gr. of chloride
of zinc in 5 dr. of alcohol ; add 7^ gr.
of collodion cotton and 6^ dr. of ether.
Shake the whole forcibly.
ioog Ic
Dissolve 33 gr. of nitrate of silver in
hot water, add 1% dr. of alcohol and
keep the whole solution by heating.
The silver solution is now added in
small quantities at a time to the col-
lodion, which must be well settled.
This, of course, is done in the dark
room. After 24 hours the emulsion is
filtered by passing it through cotton
moistened with alcohol. This durable
collodion emulsion is now flowed
thinly upon the prepared watch dial,
which, after the collodion has coagu-
lated, is moved up and down in distilled
water until the fatty stripes disappear.
The water is then changed once, and
after a short immersion, the dial is left
to dry on a piece of blotting paper. It
is now ready for exposure. Expose
under magnesium light and develop
with a citrate oxalic developer, or in
the following hydroquinone developer :
Hydroqainoae ..1 dr.
BromLde of potanium. 6 dr.
Sulphite of lodi IK oi.
Cw^cul* of kmIi 2 3'3 dr.
After fixing and drying, coat with a
transparent positive varnish.
Home-Made Overhead Trolley Coaster
The accompanying sketch shows a 1 and 3, of strips of wood bolted with
playground trolley line which furnished stove bolts on two grooved pulleys.
a great deal of amusement to many '^' ='"'"- — -''- ' ■* ■'- -'
children at a minimum cost. The wire,
which is 3/16 in. in diameter, was
stretched between a tree and a barn
across a vacant quarter block. The
strength of the wire was first tested
by a heavy man. When not in use the
wire is unhooked from the tree and
The middle wide board was made of
hardwood. The wheels were taken
from light pulley blocks and stove bolts
were purchased from a local hardware
store to accurately fit the hubs. As it
was necessary to keep the bearings
greased, we used vaseline. This
coaster made great sport for the young-
®
) TROLLEY (
^
«
z
:®|
"■"--'^r^'-"
Douik ol the Troll*]' and How It I* UMd
hauled into the barn and coiled loosely sters and at no time were they in dan*
in the hay loft. The wire was made ger of a serious fall as the line was
taut for use by a rope which was fas- hung low and the slant of the wire was
tened to the beams in the barn. The moderate. — Contributed by H. J. Hoi-
trolley was made, as shown in Figs, den. Palm Springs, Calif.
dbyGOOgIC
Ifow to Make an Electric Furnace R^;uIator
We have a furnace in our house and
a part of my work each evening last
winter was to go down in the basement
at 9 o'clock, fill the furnace with coal
for the night and stay there until it
was burning in good shape, then to
close the draft door. As this perform-
ance requires from twenty to thirty
of iron is hinged to I. To the Other side
of H another cord G is fastened, which
passes over the pulley N and termin-
ates in any convenient place in the
rooms above. This piece of iron H is
held in place by the release A. Now
C is a coil of y/irt from a door bell. R
is an armature which works A on pivot
minutes I concluded to make a self-
acting device which would close the
draft and leave the furnace safe, with-
out any further attention on my part,
after putting in the coal and opening
it up to burn. As some other boys
may like to build the same regulator I
will tell just how to make one and how
it operates. ,
Referring to Fig. 1, you will see a
straight cord is attached to the draft
door of the furnace, D, and is run over
the pulley P and finally is attached
to a small piece of iron, H. This piece
RaiuUtoT ConttmcdoD
J. M is a U-tube, filled with mercury,
one end being connected to a half liter
glass flask F by the tube T, and the
other end terminates in an overflow
tube O. B is a battery of three bi-
chromate cells which are connected up
with the C and the platinum points 1 —
2, which are fused into the U-tube.
On fixing the furnace the iron piece
H takes position X, this being the nor-
mal position when draft door D is
closed. On arriving upstairs I pull
the cord G, which causes the piece H
to become fixsd in the vertical positioa
l:v v^<^-'v_'VI
""6"
by means of A. This opens the draft
door at the same time. Now when the
furnace heats up sufficiently it causes
the air to expand in F, which causes
the mercury in M to rise a little above
the point 8. This immediately causes
a current to flow through C which in
turr ^raws R towards it, raises A and
causes H to drop to position X. This
shuts the furnace door. Now the fur-
nace, of course, cools down, thus caus-
ing the air in F to contract and conse-
quently opening the circuit through C.
If at any time the furnace should over-
heat, the raising of A, on which is
grounded a wire from a signal bell up-
stairs, will make a circuit through the
bell by means of the point Z and wire
leading therefrom. This bell also
serves to tell me whether H has
dropped or not. This same device of
regulating the draft D can be used to
regulate the damper, found on the coal
doors of most furnaces, by simply fus-
ing a platinum point on the other side
of M and changing the cord which is at-
tached to D. A two-contact switch
could also be inserted to throw con-
nections from 2 to 3. It would work
in this manner : The damper door, of
course, which keeps a low Are, would
be up in a position similar to D; on
the furnace cooling too much, connec-
tion, due to contracting of air in F,
would be made through 3 and C, caus-
ing H to drop, thus closing door. This
simple device worked very well all last
winter and gave me no trouble what-
ever.
If you cannot readily procure a U-
tube, you can make one, as I did, and
the work is interesting.
The U-tube is constructed in the fol-
lowing manner. A glass tube is closed
at one end. This is done by holding
the tube in one comer of a gas flame,
somewhat near the dark area (A, Fig.
2), and constantly turning the tube,
when it will be found that the glass has
melted together. Now, after it is cool,
about 3 or 4 in. from the sealed end.
the tube is held steadily so that the
flame will heat one small portion (B,
Fig. 2). After this small portion is
heated blow into the tube, not very
hard, but just enough to cause tube to
bulge out Allow to cool. Then re-
heat the smalt bulged portion, blow
quite hard, so that the glass will be
blown out at this point, forming a small
hole. Now insert about ^4 in- of plat-
inum wire and reheat, holding platinum
■lUDg the U-Tub*
wire by means of a small pliers so that
it win be partly in the tube and partly
without. The platinum will stick to
the glass, and if glass is sufficiently
heated one will be able to pull it, by
means of pliers, from one side of the
hole to the other, thus sealing the wire
into the tube. Another wire is sealed
in the same way about 1 in. from the
first. Now, to bend the tube, one must
hold it, with both hands, in the flame
and turn constantly until soft. Quickly
withdraw from flame and bend, just as
you would a piece of copper wire.
Allow to cool slowly.
The several tubes are connected with
a short piece of rubber tubing.
The total cost of materials for con-
structing the apparatus complete will
not amount to more than one dollar.—*
Contributed by M. G. Kopf, Lewis In-
stitute, Chicago.
Weatherproofing for Tents
Dissolve 4 oz. sulphate of zinc in 10
gal. water ; add Vii lb. sal-soda ; stir well
until dissolved, and add ^ oz. tartaric
acid. Put the tent cover in this solu-
tion and let lie 24 hrs. Take out (do
not wring it) and hang up to dry. —
Grinnell's Hand Book on Painting.
Sheet metal placed between two
boards in the jaws of a vise and
clamped tightly, can be sawed easily
with a hacksaw.
d by Google
A Monoplane Weather Vane
The toy windmill or weather vanc
shown in ;he sketch is made to repre-
sent a Blenct monoplane. The pro-
peller is turned by the wind. The
frame is made of heavy wire and con-
nected with straps of tin. The con-
struction is plainly shown in the illus-
tration. The windmill vane can be
made in any size to suit the builder. —
Contributed by W. C. Bliss, St. Louis,
Missouri.
How to Make a Minnow Trap
Glass minnow traps that will give as
good service as those purchased at the
tackle store can be made without diffi-
culty. If a trap should be banged care-
lessly against the side of the boat or
some other obstruction and smashed,
instead of spending several dollars to
replace it, a half hour's time will turn
out a new one just as good, says a cor-
respondent of Outing.
A trap of this kind can be made from
an ordinary fruit jar such as used in
putting up preserves, either of one or
two-quart capacity. A one-quart jar
gives good results, but if the bait to be
caught is of fairly large size, the two-
quart size may be used. As the jars
have the same style top they can be
used interchangeably with one mouth-
piece.
The mouthpiece is made of a round-
neck bottle of which the glass is color-
less and rather thin. If the neck of the
bottle is cut at the right point, it
makes a glass funnel that will just fit
into the fruit jar. The funnel forms
the mouth of the trap. Put the neck
of the bottle into the fruit jar and mark
the glass with a hie where the bottle
and jar meet Make as deep a cut as
possible with a hie around the bottle
on the mark and place two turns of a
yarn string saturated in kerosene
around just below the cut when the
bottle is standing in an upright posi-
tion. Set fire to the string and turn
the bottle from side to side to distrib-
ute the heat evenly, then when the
string has burned out, plunge the bot-
tle in cold water and it will separate
on the cut.
Bind some copper wire around the
neck of the jar so that three ends will
project V2 in- or more. These are bent
down over the funnel when put into
the jar, forming clamps to hold it in
place. The copper wire can be bent
many times in emptying or baiting the
trap without breaking.
Two copper wire bands are tied
tightly around the jar about 3 in. apart.
They should be twisted tight with a
pair of pliers and the ends joined,
forming a ring for attaching a cord.
For catching "kellies" or "killies,"
bait the trap with crushed clams or
salt-water mussels and for fresh water
shiners use mincemeat or bread crumbs
and do not spill any bait outside of the
trap. Leave the trap down ten to fif-
teen minutes and when resetting it
after emptying, put back one or two of
the victims, as the others enter more
readily if they see some of their com-
panions ahead of them.
A Remedy for Leaking Fountain Pens
Fountain-pen leaks may often be
prevented by unscrewing the joint and
lightly smearing the screw with vase-
line. This also makes it easy to un-
screw the joint for filling.
iv^ioOglc
Kites of Many Kinds and How to Make Them
One of the prettiest of all is the but-
terfly kite. To make this get two thin
kite sticks of equal length. Bend each
in an arc, tying one end of a strong
string to one end of each stick and
the other end of the
string to a point
about 3 in. from the
other end of the
stick. This leaves one
end of each stick
free, hooking over
the hemisphere de-
scribed by the thread
and the stick. Now
tie another thread to
each of these free ends and tie the other
end of the thread to a point near the
other end of the stick, corresponding
with the distance from the end at which
the first strings were tied on the oppo-
site side. This done, you should have
two arched frames, each an exact coun-
terpart of the other in size, curvature
and weight Now fasten the two
frames together so that the arcs will
overlap each other as shown in the
sketch. Bind the intersecting points
Distribute the paste with a small brush
and make the overlaps a little more
than Yi in. wide and press them to-
B«T Kit*
gether with a soft cloth. When the
kite is dry decorate it with paint or
strips of colored paper in any de-
sign you may fancy. The best ef-
fects are produced by pasting pieces of
securely with thread. To make the colored paper on top of the other i
per. Black paper decorations show up
to fine advantage when the kite is in
flight. Attach the "belly-band" to the
curved sticks
butterfly's head, secure two heavy
broom straws or two short wires, and
attach them to the top
part of the wing
frames near where the
sticks intersect, so
that the straws or
wires will cross. These
form the antennae, or
the "smellers." Then
select the color of pa-
per you want, yellow,
brown, blue, white or
any other color; lay
it on a flat surface and
place the frame on top
of it, holding the
frame down securely with a weight.
Then with a pair of scissors cut the pa-
per around the frame, leaving about a
'/^-in. margin for pasting. Cut slits in
the paper about 2 in. apart around the With light colored coat and vest and
curves and at all angles to keep the gay striped trousers, the kite stand-
paper from wrinkling when it is pasted, ing high in the air always attracts at-
Pran* for Qltl Kh*
tention and affords splendid sport for
the American youth in springtime.
In making a boy kite it should be
remembered that the larger the boy is
the better he will fly. To construct the
frame, two straight sticks, say 3% ft.
long, should serve for the legs and
body ; another straight stick forms the
spine and should be about 2 ft. 4 in.
long. For the arms, get a fourth
straight stick about 3 ft. 3 in. long.
Make the frame for the head by bend-
ing a light tough stick in a circle about
7 in. in diameter. Bind it tightly with
a strong thread and through its center
run the spine. Then tack on the arm
stick 3 in. under the circle so that the
spinal column crosses the arm stick ex-
actly in the center. "Wrap tightly with
strong thread and tack on the two
sticks that are to serve for the legs and
body. The leg sticks should be fast-
ened to the arm stick about 6 in. on
either side of the spinal column, and
crossed so that the other ends are 3 ft.
apart. Tack them and the arm stick
together at the point where they inter-
sect. Small hoops and cross stick of
the same material as the head frame
should be fastened to both extremities
of the arm stick and the lower ends of
the leg stick for the hands and feet.
See that both hand frames are exactly
alike and exercise equal caution regard-
ing the foot frames ; also see that the
arm stick is at exact right angles with
the spine stick and that the kite joints
3se all firmly tied and the kite evenly
balanced ; otherwise it may be lopsided.
Fasten on the strings of the frame, be-
ginning at the neck at equal distances
from the spine, as indicated by the
dotted lines in the diagram. Extend a
string slantingly from the armstick to
the head on both sides of the spinal
column, and run all the other strings
as shown in the cut, being careful that
both sides of the frame correspond in
measurements.
To cover the kite, select different ■
colors of paper to suit your taste, and
after pasting them together, lay the
paper on the floor and placing the
frame on it, cut out the pattern. Leave
an edge of Yz in. all around and make
a slit in this edge every 6 in. and at
each angle; make the slits 2 in. apart
around the head. After the kite is
pasted and dry, paint the buttons, hair,
eyes, hands, feet, etc., as you desire.
Arrange the "belly band" and tail band
and attach the kite string in the same
manner as in the ordinary coffin-shaped
kite.
The "lady kite" is made on the same
principle as the boy kite. The frame
may be made exactly as the boy kite
and then "dressed" with tissue paper
to represent a girl, or it may be made
on the special frame, page 81. Remem-
ber the dotted lines represent the
strings or thread, and the other lines
indicate the kite sticks. Be careful
with your measurements so that each
side of the kite corresponds exactly and
is well balanced. Also see that every
point where the sticks intersect is
firmly tacked and bound.
To cover the kite, first paste together
pieces of tissue paper of different color
to suit your taste. The paste should
be made of flour and water and boiled.
Make the seams or overlaps not quite
% in, wide. Lay the paper on the floor,
using weights to hold it down, and place
the frame of the kite upon it. Then
cut out the paper around the frame,
leaving an edge of Ys in. Don't forget
to make a slit in the edge every 6 or 7
in, and at each angle. Around the head
the slits are cut 2 in. apart, as in the
case of the boy kite. After the kite is
l:v v^JV^.'v.'Vl'
■a"
dry, paint the paper as your fancy dic-
tates.
To make the breast band, punch holes
through the paper, one upon each side
of the leg sticks, just above the bottom,
and one upon each side of the arm
sticks at tlie shoulder. Run one end
of the string through the hole at the
bottom of the left limb and tie it to the
leg stick ; tie the other end at the right
shoulder. Fasten one end of another
string of the same length at the bot-
tom of the right leg ; pass the string up
across the first band and tie the other
end at the left shoulder. Attach the
kite string to the breast band at the
point where the two strings intersect.
Tie the knot so that you can slide the
kite string up or down until it is prop-
erly adjusted. The tail band is made
by tying a string to the leg sticks at
the bottom of the breast band. Let the
string hang slack below the skirt and
attach the tail to the center. The same
general rules apply in attaching the
string and tail to the boy kite.
You can make the lady look as if
dancing and kicking in the clouds by
making the feet of stiff pasteboard and
allowing them to hang loose from the
line which forms the bottom of the
skirt. The feet will move and sway
with each motion of the kite.
How to Make Rubber Stamps
India rubber, especially prepared for
stamp-making, should be procured from
a dealer or manufacturer, if good re-
sults are to be obtained. As an experi-
ment, it is possible for an amateur to
prepare the rubber, but, iw such cases,
it is 'always attended with uncertain
results- The mixed uncured rubber
comes in white sheets, strong, firm and
about % in. thick, and for its manipu-
lation a press is indispensable, but can
be home-made.
For the base of the press use a piece
of iron, having two holes drilled in it at
the middle of opposite sides, through
which pass bolts, letting the thread
ends extend upward and counter-sink-
ing places for the bott heads to keep the
under side of the base level. Solder
the bolts in place at the base. The up-
per part of the press, or the platen, is
also of iron, cut so it can be swung
PUli KmU* VnlculMr
off the bolts, rather than by removing
the nuts and lifting it off. String a half
dozen nuts, lai^er thao those which
screw on, on each bolt, so that when
the upper nut on each is screwed vo the
extent of the thread the pressure will
be communicated through the nuts
wedged in between the platen and the
upper nut. The bolt holes in the platen
should be directly over those in the
base. Distance pieces of an exact thick-
ness should be provided for use on the
base ; these serve to keep the pressure
even.
In preparing the mould, if type is to
be copied, use rather large type with
wide spaces and set up with high quads
and spaces, or the type faces may be
filled up by rubbing with either wax,
or soap, lightly brushing off any that
remains loose. The type so set should
be locked into a frame. This may be
made of two pieces of wood bolted to-
gether at both ends, or of printer's fur-
niture. Place it on a flat surface (mar-
ble is good, but any perfectly smooth
surface will do) and place distance
pieces % in. higher than its upper sur-
face on either side of it. Apply olive
oil to the type faces and wipe off any
excess. To form the matrix or reverse
of the model, take a piece of iron larger
than the inscription to be copied, and
spread upon it to a depth of % in, a
putty made by mixing plaster of paris
z: Iv^jOOglC
and water to the right consistency. By
means of a table knife spread the plas-
ter smoothly and then invert the plate
upon the model and press down until
Vnlraniilng Preu for Sabbcr Sumjii
the distance pieces are struck. Let it
set 10 minutes and then remove. If
care has been taken the matrix will be
perfect. After it has thoroughly dried,
preferably in an oven, saturate it with
an alcoholic solution of shellac to
strengthen it.
Cut a piece of smooth rubber, lat^e
enough to cover the matrix, from the
sheet, throw this into a box of talc, or
powdered soapstone, so that it receives
a coating on both sides ; dust a little of
the powder over the matrix, also. Place
the press on a support over a gas burn-
er, or a kerosene lamp, and apply the
heat. Place the matrix on the base of
the press, dust off the piece of india
rubber and place in the press upon the
matrix and screw down the platen.
Heat the press to 884 deg. F. and keep
screwing down the platen so that the
rubber, now soft and putty-like, is
forced into every recess of the matrix.
A thermometer is not necessary ; some
rubber always protrudes and the stage
of the process can be told from that.
At first it is quite elastic, then as the
heat increases it becomes soft, then the
curing begins and it again becomes
elastic, so that, it a point of a knife
blade is pressed against it, it resumes
its shape when the point is removed.
When this takes place it is then thor-
oughly vulcanized and the sheet can be
removed from the matrix. Ten min-
utes, under favorable conditions, is suf-
ficient time for moulding the rubber.
By means of common glue, or bicycle
tire cement, fasten the rubber stamp to
a wooden handle.
It is possible to dispense with the
press in making stamps, where the
work is not done in quantities, and use
a hot flat-iron. The matrix is placed
on a stove at low heat, the rubber laid
on and the hot iron applied. But a
few moments are required to mould it.
An old letter press if it be inclosed
in a tin oven makes a good press, or
all the necessary materials and appa-
ratus can be purchased from a dealer.
Any type such as all printers use will
To Lig^t a Gaslight Without Hatches
It is probably well known that if you
rub your feet briskly over a carpet on a
dry, cold day and then touch any metal-
lic object with your finger it will emit
a small spark.
The foil o w i n g
amusing experi-
ment may be
done on the same
principle :
Take any small
piece of wire
about 2 in. long
and twist it
around a gas-
burner as shown
at A in the
sketch. Have the '
tip of the burner
about % in. below the end of the wire.
The wire must be just far enough away
from the center of the burner to keep
it out of the flame, or else it will melt.
Now get a friend to turn on the gas
when you are ready for it. Go around
the room once or twice rubbing your
feet along the carpet. When you come
around to the gaslight touch the point
of the wire and if the gas is turned on,
the light will flare right up as if it had
been lit with a match.
This experiment cannot be done on a
damp day or without shoes, and works
best in cold weather. — Contributed b>
£. H. Klipstein.
cbyGOOgIC
How To Hake a Trap For Rabbits,
Rats and Mice
From an old 6-in. pine fence board
cut off four pieces 2^ ft. long and one
6 in. square for the end of the trap and
another 4 in. by 8 in. for the door. Use
old boards, as new boards scare rab-
bits.
Figure 1 shows how the box is made.
It should be 4 in. wide and 6 in. high
2, and fasten its loop into the loop of
the hammer. Mount the bell on a
small board as in Fig. 3 and fasten the
cogwheel almost on a line with it. Now
press down the hammer and place a
nail in the position shown in the dia-
gram so that the catch touches one of
the teeth.
Fasten the board in an upright posi-
tion and attach two dry batteries to the
binding-posts. If properly connected,
y
.
,/
L
1
1 1
r
f
r 1
K Good Tnp lor SmiU Aninub
on the inside. The top and bottom
boards project I iiL beyond the side
boards at the back and the end board is
set in. The top board should be 2 in.
shorter than the sides at the front. Nail
a strip on the top board back of the door
and one on the bottom board so the
game cannot push the door open from
inside the trap and g«t out.
In the middle of the top board bore
a hole and put a crotched stick in for
the lever to rest on. Bore another hole
in the top of the door for the lever to
pass through. Two inches from the
back of the box bore a hole for the
trigger, which should be made out of
heavy wire in the manner shown in
Fig, 8. The door of the trap must work
easily and loosely.
Novel Electric Motor
The materials necessary to make this
motor are an old electric bell of the
"buzzer" type and a cogwheel from an
old clock.
Remove the hammer-head and gong
from the bell, then bend the end of
the hammer into a loop, as in Fig. 1.
Kow make a little wire catch like Fig.
the fly-wheel will turn quite rapidly
and with amazing force for so small a
machine. The machine, however, has
a fixed direction as shown by the arrow,
but the belting can be arranged so as
to send the models in a reversed direc- .
tion if required. The materials for
the motor should not cost more than
Nonl Electric Motoc
25c for the bell and if you have an old
bell it will cost next to nothing. — Con-
tributed by Fred C. Curry, Brockvilte,
Ontaria
byClOOglC
How to Print Photographs on Silk
Silk, satin or any other fine material
can be used to make photographic
prints, but the most attractive results
for the amateur are obtained on silk,
the best color for this purpose being
either cream or white, says Photog-
raphy, The chemicals required are
only four in number, and a compara-
tively small amount of each will suf-
fice, so that the process can be tried
without any very great outlay.
A dram of dextrine is mixed with 3
oz. of water and allowed to dissolve.
It is then made up to 4 oz. with boil-
ing water, and, when cold, a solution
of 1 dr. of ammonium chloride in S oz.
of water is added. As this mixture
does not keep well, it should be
used as soon as possible after being
made up.
The silk is soaked in the liquid until
it is thoroughly saturated, which should
take about four or five minutes, and
it is then hung up to dry, suspending
it, tightly stretched, from its two top
comers. The fabric when "salted,"
as this operation is termed, will keep
indefinitely. All these operations can
be done in daylight.
The next stage is the application of
the sensitizer, for which purpose the
two following solutions must be made
up and then mixed :
srirernilrale 120 «r.
Water 1 oi-
Cittkicid SO Br.
WiWt ioi.
The mixture is spread evenly over
the silk with a soft camel's-hair brush.
There must be no metal in the mount-
ing of the brush that is used.
Particular care must be taken to see
that no particle of the surface of the
silk is left uncovered. The best way
to insure this is to brush the liquid
over the silk, first in one direction and
then crosswise. The process of sen-
sitizing must be done in a weak arti-
ficial light, such as at night by ordinary
gas or lamp light, or in the very feeblest
daylight.
The silk is then again fastened up
and allowed to dry, but it is now sen-
sitive to the light and the drying must
therefore be done in the dark. It is
ready for printing as soon as it is dry,
and as it does not keep well in the
sensitive condition, it should be used
up within a few days at the most.
The printing, which is done in day-
light, is carried on in the same way as
for printing-out papers, except that the
silk should be prmted a little darker
than usual. It will be found con-
venient to gum the edges slightly, and
then to fix the silk on a stiff piece of
paper before putting it into the print-
ing frame. If this precaution is not
adopted there is a tendency for the silk
to slip or crease when it is being ex-
amined. The silk must be handled
carefully while in the printing frame
for this reason, but apart from that,
there is no particular difficulty. The
paper can be taken off when the print-
ing is finished.
Prints on silk arc toned, fixed and
washed in the same way as ordinary
silver prints. The washing should be
thorough, and before the prints are
quite dry, they should be ironed to re-
move all creases.
Removing Old Paint
A chair more than a hundred years
old came to me by inheritance. It was
originally painted green and had been
given two coats of dark paint or var-
nish within the last 30 years. Desiring
to improve the appearance of the relic,
I decided to remove the paint and give
it a mahogany stain. The usual paint
removers would readily take off the
two latter coats but had no effect upon
the first. I tried to remove the trouble-
some green in various ways, but with
little success until I applied a hot, sat-
urated solution of concentrated lye.
By coating the paint with this repeat-
edly, applying one coat upon another
for two days, and then using a stiff
brush, the layer was easily and com-
pletely removed. — Contributed by"
Thos. R. Baker, Chicago, 111.
Uilii:z:m.: !:■■■ \^J v.^'V/V 1'
■a"
A Window Lock one of the tube projections cut off from
each to make a hook, as shown in Fig.
Bore a hole through the sash of the 2. The piece marked E shows one of
lower window and halfway through these forgings or hooks in section. The
the sash of the upper window, where original axle of the bicycle was re-
they meet in the center, and insert a moved and one 1^ in, longer supplied.
[. l-TraUcr Altiched U
heavy nail or spike. This will fasten
the sash together so well that nothing
short of a crowbar can pry them apart.
The nail can be easily removed when
the windows are to be opened.
Homemade Magnifying Glass
A very good magnifying glass can
be made from an ordinary incandescent
lamp of about 16-cp. size which has
been rendered useless by being burned
out or having the filament broken.
Grind or break off the tip end of the
globe and fill with water. Put in clear
water and plug or cork up the hole.
Trailer for a Bicycle
Instead of using a seat on the han-
dlebars or frame of a bicycle for my
little girl, I made a trailer, as shown in
Fig, 1, to attach to the rear axle. I
made it from old bicycle parts. The
handlebars, which form the back of
the seat, fasten into the seat post of
an old bicycle attached to the trailer
axle. The trailer is attached to the
rear axle of the bicycle with two arms
or forks, on the ends of which are two
forgings, formerly used on the rear
ends of a blcvcle frame, brazed in, and
which was turned below the threads
for clearance, as shown at A. A
washer, D, with a hexagon hole was
fitted over the regular nut C, on the
axle, and filed tapering so the forging
or hook E, on the trailer attachment,
could be kept in position. The washer
F is held tightly against the hook by
pressure from a spring, G. The spring
is held in place by a small nut, H, and
cotter pin, I. This attachment makes
a flexible joint for turning corners.
When turning from right to left the
left hook on the trailer fork stays in
Pig. a-The Hook ia PniiioD
position, while the right hook pushes
the washer F outward and relieves the
strain on the fork. This attachment
also makes it easy to remove the
trailer from the bicycle. The washers
F are pushed outward and the hook
raised off the axle. — Contributed by
John F. Grieves, Providence, R. I.
■'iV
Home-Made Telephone Transmitter
The parts for transmitting the sound
are encased in a covering, H, made
from the gong of an old electric bell.
A round button, D, is turned or filed
from the carbon electrode of an old
dry cell and a
hole drilled
through the
center to fit in
a binding-post
taken from the
same battery
cell. This but-
ton must be
carefully insu-
lated from the
shell, H, by running the binding-post
through a piece of small rubber tube
where it passes through the hole and
placing a rubber or paper washer, F,
under the carbon button, and an in-
sulating washer under the nut on the
outside. This will provide one of the
terminals of the instrument. Con-
struct a paper tube having the same
diameter as the button and with a
length equal to the depth of the bell
case, less % in,. Glue or paste this
tube to the button so it will form a
paper cup with a carbon bottom.
The diaphragm, B, which is the es-
sential part of the instrument, should
be made as carefully as possible from
ferrotype tin, commonly called tintype
tin. Cut a circular piece from this
metal the exact size of the outside of
the shell. A hole is made in the center
of the disk a little larger than a bind-
ing-post that is taken from another old
battery cell. When making the hole
in the disk be careful not to bend or
crease the tin. Scrape the biack coating
from the tin around the outside about
% in. wide and a place about 1 in. in
diameter at the center.
The second electrode, C, is made the
same as D, and fastened to the tin dia-
phragm with the binding-post without
using any insulation, A third binding-
post, G, is fastened to the shell through
a drilled hole to make the other ter-
minal. The mouthpiece. A, may be
turned from wood in aoy shape de-
^rcd, but have a flange on the back
side that will make a tight fit with the
outside of the shell.
Fill the paper tube with powdered
carbon, E, which can be made by
pounding ^nd breaking up pieces of
carbon to about the size of pin heads.
Powdered carbon can be purchased,
but if you make it be sore to sift out
all the very fine particles. Assemble
the parts as shown and the transmitter
is ready for use. If speech is not heard
distinctly, put in a little more, or re-
move some of the carbon and try it
out until you get the instrument work-
ing nicely. — Contributed by Harold H.
Cutter, Springfield, Mass.
Quickly Made Lawn Tent
A very simple way of erecting a
lawn tent for the children is to take a
large umbrella such as used on de-
livery wagons and drive the handle
into the ground deep enough to hold
it solid. Fasten canvas or cotton cloth
to the ends of the ribs and let it hang
so that the' bottom edge will touch
the ground. Light ropes can be tied
to the ends of the ribs and fastened
to stakes driven in the ground in a
tent-like manner to make the whole
more substantial and to stand against
a heavy wind. This makes an ex-
ceptionally fine tent, as the umbrelia
Lawn Tent Complete
is waterproof ; also, there is more
room to stand up in than in a tent that
is in the shape of a wigwam. — Con-
tributed by J. A. Whamer, Schenec-
tady, N. Y.
I:v v^<v.^v_'Vl^_
How to Make a Windmill of One or Two Horsepower
for Practical Purposes
A windmill for developing from ^
to S hp. may be constructed at home,
the expense being very small and the
results highly satisfactory.
The hub for the revolving fan wheel
is first constructed. One good way to
get both the hub, lining, shaft and
spokes for the blades, is to go to a
wheelwright's and purchase the wheel
and axie of some old rig. There are
always a number of discarded carriages,
wagons or parts thereof in the rear of
the average blacksmith's shop. Some-
times for half a dollar, and often for
nothing, you can get a wheel, an axie,
and connecte'd parts. Remove from the
wheel, all but the four spokes needed
for the fans as in Fig. 1. The same hub,
axle and bearings will do. In case you
cannot secure a wheel and shaft, the
hub may be made from a piece of hard-
wood, about 4 in. in diameter and 6 in.
long. A 2-in. hole should be bored
through for a wooden shaft, or a li^-in-
hole for a metal shaft. The hub may
be secured by putting two or three
metal pins through hub and shaft. Ad-
just the spokes by boring holes for them
and arrange them so that they extend
from the center A, like B. The wheel
is then ready for the blades. These
blades should be of sheet metal or thin
hardwood. The sizes may vary accord-
ing to the capacity of the wheel and
amount of room for the blades on the
spokes. Each one is tilted so as to
receive the force of the wind at an an-
gle, which adjustment causes the wheel
to revolve when the wind pressure is
strong enough. Secure the blades to
the spokes by using little metal cleats,
C and D. Bend these metal strips to
suit the form of the spokes and flatten
against the blades and then insert the
screws to fasten the cleats to the wood.
If sheet metal blades are used, rivets
should be used for fastening them.
The stand for the wheel shaft is
shown in Fig. 3. Arrange the base
piece in platform order, (J), This is
more fully shown in Fig, 5. On top of
this base piece, which is about 36 in.
long, place the seat or ring for the re-
volving table. The circular seat is in*
dicated at I, Fig, 1, This ring is like
an inverted cheese box cover with the
center cut out. It can be made by a
tinner. Size of ring outside, 35 in. The
shoulders are 4 in, high and made of
tin also. Form the shoulder by solder-
ing the piece on. Thus we get a smooth
surface with sides for the mill base to
turn in so as to receive the wind at each
point to advantage. The X-shaped
joglc
piece H rests in the tin rim. The X-
form, however, does not show in this
sketch, but in Fig. S, where it is marked
S, This part is made of two pieces of
IS=
_^
-w
8-in. plank, about 3 in. wide, arranged
so that the two pieces cross to make a
letter X. When the pieces join, mor-
tise them one into the other so as ti)
secure a good joint. Adjust the up-
rights for sustaining the wheel shaft to
the X-pieces as shown at E, E, Fig. 3.
These are 4 by 4 in, pieces of wood,
hard pine preferred, planed and securely
set up in the X-pieces by mortising into
the same. Make the bearings for the
^.^
l_l f.. I_
wheel shaft in the uprights and insert
the shaft.
The gearing for the transmission of
the power from the wheel shaft to the
shaft calculated for the delivery of the
power at an accessible point below must
next be adjusted. The windmill is in-
tended for installation on top of a build-
ing, and the power may be transmitted
below, or to the top of a stand specially
erected for the purpose. It is a good
plan to visit some of the second-hand
machinery dealers and get four gears,
a pulley and a shaft. Gears about 6 in,
in diameter and beveled will be re-
quired. Adjust the first pair of the
beveled gears as at F and G. If the
wheel shaft is metal, the gear may be
set-screwed to the shaft, or keyed to
it. If the shaft is hardwood, it will be
necessary to arrange for a special con-
nection. The shaft may be wrapped
with sheet metal and this metjtl fas-
tened on with screws. Then the gear
may be attached by passing a pin
through the set-screw hole and through
the shaft. The upright shaft like the
wheel shaft is best when of metaL
This shaft is shown extending from the
gear, G, to a point below. The object
is to have the shaft reach to the point
where the power is received for the
service below. The shaft is shown cut
off at K. Passing to Fig. 3 the shaft is
again taken up at L. It now passes
through the arrangement shown, which
device is rigged up to hold the shaft
and delivery wheel P in place. This
shaft should also be metal. Secure the
beveled gears M and N as shown.
These transmit the power from the up-
right shaft to the lower horizontal
shaft. Provide the wheel or pulley, F,
with the necessary belt to carry the
power from this shaft to the point of
use.
The tail board of the windmill is il-
lustrated in Fig, 4. A good way to
make this board is to use a section of
thin lumber and attach it to the rear
upright, E of Fig. 2. This tnay be
done by boring a hole in the upright
and inserting the shaft of the tail-piece.
In Fig. 4 is also shown the process of
fastening a gear, R, to the shaft. The
set screws enter the hub from the two
sides and the points are pressed upon
the shaft, thus holding the gear firmly
in place. The platform for the entire
wheel device is shown in Fig. 6. The
d by Google
X-piece S is bored through in the mid-
dle and the npright shaft passes
through. The tin run-way or ring Ja
mark^ T, and the X-piece very readily
revolves in this ring, whenever the
wind alters and causes the wheel's
position .to change. The ring and ring
base arc secured to the platform, U.
The latter is made of boards nailed to
the timbers of the staging for support-
ing the mill. This staging is shown in
Fig. 6, in a sectional view. The ring
with its X-piece is marked V, the X-
piece is marked W, and the base for
the part, and the top of the stage is
marked X. The stage is made of 2 by
4-in. stock. The height may vary, ac-
cording to the requirements. If the
affair is set up on a barn or shed, the
staging will be sufficient to support the
device. But if the stage is constructed
direct from the ground, it will be nec-
essary to use some long timbers to get
the wheel up high enough to receive
the benefit of the force of the wind.
Proceeding on the plan of the derrick
stand, as shown in Fig. 6, a stage of
considerable height can be obtained.
To Renew Old Dry Batteries
Remove the paper that covers the cell
and knock several good-sized holes in
the zinc shell. Place the battery in a
glass jar, fill it two-thirds full of strong
sal ammoniac (or salt) solution and
connect the terminals to whatever ap-
paratus the current is to be used for.
A few drops of sulphuric acid quickens
and improves the action. The output
of the cell will be nearly as great as
when the battery was first bought. —
Contributed by C. W. Arbitt, Austin,
Texas.
Prussian blue and Chinese blue are
both the same chemically but they do
not cut or look the same.
When an acetylene lamp is in good
order it will light up slowly with a
hissing noise followed by a pure white
flame. Should the lamp light up quickly
with a yellowish flame, it is a sign of
a leak somewhere.
Aaother Electric HoUr
This form of electric motor is used
largely in England in the form of an
indicator. It is very easily made and
Baclfic Hotar
if you have an old electro-magnet will
cost practically nothing.
A large soft-iron wheel is mounted on
an axle with a pulley-wheel on one end
and a circuit breaker on the other end.
The teeth on the circuit-breaker must
be the same number as on the soft-iron
wheel.
The electro-magnet is mounted so
that its core is level with the axle and
in a line with the wheel. One wire
from it is attached to one binding screw
and the other end is grounded to the
iron frame that supports it. This
frame is connected to the frame sup-
porting the wheel. A small brush
presses on the circuit -breaker and is
connected to the other binding screw.
In the diagram A represents the iron
wheel; B, the brush; C, the circuit-
breaker; D, the magnet. The wire
connecting the two frames is shown
by a dotted line.
To start the motor, attach your bat-
tery to the screws and turn the wheel
a little. The magnet attracts one of
the teeth on the wheel, but as soon as
it is parallel with the core of the mag-
net the circuit is broken and the mo-
mentum of the wheel brings another
tooth to be attracted.
To reverse the motor reverse the con-
nections and start the wheel the other
way. Be sure that the frames are
screwed down well or the motor will
run jerkily and destroy the connec-
tions. — Contributed by F. Crawford
Curry, Brockville, Ontario.
joglc
How to Make a Propelling Vehicle
Any boy, with a little knack and a
few odd tools, can rig up various con-
trivances which will be a source of
pleasure to himself and oftentimes can
be sold, to
less i nge-
nious boys,
for a snug lit-
<tle sum. Any
tool a boy
can obtain is
~r,Vi apt to be of
use to him,
chisel, bit, jack-knife or hammer.
Figure 1 shows what two boys did
with old cycle wheels. They went to
some junk shops where the concerns
had purchased cast-away bicycles and
noticed that there were numerous
wheels in very good order that could
be selected from among the sets of
wheels with broken or bent rims,
spokes, burst tires, etc. ' In fact, the
lads had no trouble in getting several
sets of bicycle wheels in good condition
for very little money. These wheels
were taken to the back-yard shop of
the boys where the young fellows had
rigged up a shed-like affair and put in a
bench. The previous Christmas one of
the boys received a box of tools as a
gift, in which was included a little hand
vise and the required tools for general
boy's h a n d i-
work.
Four of the
cycle wheels
they used in
making the
hand - propelled
vehicle shown
at Fig. 1.
A wooden
body. A, made
of smooth
boards rests
f « s ~ upon shafts.
Fixed on this
body is an upright carrying the sprocket
B. The upright is a piece of wood about
10 in. high and 4 in. wide, fitted with
one of the bearings from the cycle. The
regular cycle chain sprocket is used at
B as well as upon the shaft. The regular
chain of the cycle is likewise employed,
so, when buying the wheels, it is well
to select one or more chains with cor-
responding sprockets from the junk
heap. The detail of the adjustment of
the parts is shown in next views. The
letter D signifies the seat which is a
box. The steering gear is a bent iron
rod, also found in the waste pile of the
junk shop, and is bent to right form
by heating and bending over on a rock
or any solid matter. The steering rod
is marked E. It fits into a socket in
the shaft of the forward wheels.
Figure 2 shows the construction of
the cart below. The cog is keyed or
set-screwed to the driving shaft of the
wheels with either key or set-screw
used in original fastening, as the case
DiivioE Shift and Diik for SiMtlnE 0«>r
may be. The chain is marked F, and
there is a slot cut in the floor of the
cart to let the chain pass up and
through to the cog on the propelling
shaft crank. The disk which receives
the steering rod is at G. The forward
shaft bears only at the center upon a
disk of metal, consisting of any circular
piece found among the pieces of iron
or brass at the junk store. One can
get nearly all the mechanical parts in
junk establishments that purchase
parts of out-of-date or cast-away bicy-
cles. The detail of the driving shaft is
shown at Fig. 3, The sprocket wheel
is at H and this is just as it is taken
from the original bicycle shaft. The
bearings consist of wires looped around
the shaft and inserted into holes bored
in metal plates as shown. These plates
are screwed to the bottom of the cart.
I:v v^<v.^v_'Vl^_
The shaft itself is found in rods or even
cast-away metal axles which are com-
monly round in most any carriage
works, cycle shops or junk dealer's.
Figure 4 shows the disk that receives
the steering gear. The disk is bored
around edges for the securing screws,
while the center is open for lie steer-
ing rod. When put together, three
boys usually ride. One steers and the
other two turn the crank. Freight can
be carried and some boys do quite an
express business in their town with one
of the carts like this that they made.
Ringing a Bell by Touching a Gas Jet
The experiment of scuffling the feet
over a carpet and then producing a
spark which will light the gas by touch-
ing the chandelier is described on an-
other page. One of our correspondents
says that if a wire is connected to the
chandelier and led to one terminal of
the coherer of a wireless telegraph out-
fit the bell will ring every time the
m
Zl
U\^
Toncb th* Gu Jet and Blag til* Bdl
spark is produced by touching the
chandelier, and that, as the chandeliers
are all connected by the gas-pipe, the
beU will ring, no matter in which room
the spark is produced.
The covering quality will be greatly
improved if some dry red lead is added
to the shellac varnish used for killing
knots.
How to Make a Wood-Turning Lathe
Out of an Old Sewing Machine
With a hack-saw, cut off the arm
containing the needle on line AB, Fig.
1, leaving the shaft only. On the end
of the shaft will be found a round plate,
yt-
in which drill four 3/16-in. holes. Now
secure, or have turned, a piece of iron
or steel 1% in. in diameter, Fig. 2,
Drill and countersink four 3/16-in.
holes in it to fit the holes on the shaft
plate. File a spur center 5/16 in. long,
and two side points 3/16 in, long. Bolt
this plate to the shaft plate with four
flat-headed stove bolts, 3/16 in. in di-
ameter by % or % in. long. Fig. 3.
For the bed, use a board 32 in, long
and as wide as the base of the machine
arm. This gives a limit of 2 ft. be-
tween spur and dead centers. Let this
board be made level with the rest of
machine table by making a pair of legs
if needed. Next make a T-rail, Fig. 4,
of two boards, one 5 by % by 32 in.,
the other SVz by % by 38 in. Three-
quarter inch of the wider board pro-
jects over each of the smaller boards.
Nail firmly and clinch nails, or screw
together. Screw this rail on the ma-
chine board so that its center coincides
exactly with the machine centers. Bore
a number of %-in. holes with centers
2% in. apart along the center line of
this rail, beginning 6 in, from the end
nearest the machine. Make another
T-rail for slide tool rest, of two pieces
33 by 3 by % in., and 32 by 1^ by %
in. Fasten this in front of the larger
T-rail and parallel to it, the center
lines being 6^ in. apart.
To make the tail-piece, that is, the
part to hold wood to be turned, get a
board 6% by 7 by % in., and on the
edges. Fig, 5, A, screw two pieces 7
by % by 1^ in. so that the cap thus
lOOglc
made will fit snugly over the large T-
rail. Fasten to these last two pieces.
c
threaded to fit the crank, on the head-
end of the crank block, and a plain nut
X
Jmt
J
with screws, two more pieces 7 by % by
% in.. Fig. 5, B. This tail-piece should
move smoothly back and forth with
no side motion. Now get a block of
hardwood 4
a blacksmith make a crank 8 in. long,
threaded for 5 in. as shown. At the
dead center end taper the crank and
make a cup center, out of which allow
a 3/16-in, point to project. The cup
prevents the point from boring into
to act as a bearing, on the crank end.
One and one-half inches from the back
of the tail-piece bore a %-in, hole.
Make a peg % by 3 in. To put in a
piece of wood to turn, move the tail-
piece back until the head end is over
the center of the hole nearest the end
of the block, then the peg will slip into
second hole from the head end of the
tail-piece, and into a corresponding T-
rail hole, pinning the two together. In-
sert wood and screw up dead center to
hold it.
For a too] rest make a second piece
like the base of the tail-piece, 11 in-
long and fitting the small T-rail. Cut
out two blocks 1% by 2^^ by % in. and
screw them, one on each end of the
base of the tool rest, covering the half
farthest from the centers, and having
an 8-in. space between blocks. On the
tops of these blocks screw a strip 11 by
2^4 by % in. Now for the rest proper,
cut out a board 8 by 11/16 by 9 in. to
slide in the slot of the rest. Take a
piece of oak 11 by 2 in., and high
enough so that the top will be level
with the centers of the lathe, and bevel
wood too rapidly. One inch from the
outer end of the crank block, Fig. 5,
bore a 3/16-in. hole, and force a ^-in.
boit to cut its thread in the wood. This
is a set screw to hold the crank in any
position desired. Place a strap nut.
as shown in Fig. 6, Screw on one end
of the 8 by 9-in. piece exactly in the
middle. This piece will slide in and
out, closer or farther from the centers
as desired, and also along the T-rail.
A center for turning rosettes, saucers.
d by Google
etc., may be made as follows : Remove
the spur center and bolt in its place a
1-in, circular board of the same diame-
and 4. Hold the brass strips apart by
means of the hard rubber strip and
screws. Do not let the screws come
ter, using longer 3/16-in. stove bolts all the way through the rubber strip
with heads countersunk. Rotate the
lathe, and with a gimlet bore a hole at
the exact center and through the board.
Now take off the board and counter-
sink on the back a place for the head
of a coarse threaded screw. Turn in
a 1%-in. screw, replace the board and
any block held on the end of the rota-
ting screw will turn on and be held
while being turned. — Contributed by
L, L. Winans, Mexico, Mo.
or you are liable to get a shock in case
you should touch both screws simul-
taneously. Screw a rubber handle onto
the rubber strip to move the lever back
and forth with. Fig. 2 shows the ar-
rangement of strips, ' handle, screws,
etc., in detail. Fig. 3 is an end view
of the same. — Contributed by Eugene
F. Tuttle, Jr., Newark, Ohio.
Bronze bearings may be cleaned with
',i>TnBllJSH»mTIK
.^TOKLataLaFrnTai
Reversing Small Battery Motor
Make the switch out of a piece of
slate (for the base) two strips of brass,
a rubber strip and handle and some
binding-posts from old dry batteries.
Fasten thr brass strips at 5 and 6, Fig.
1, so they can swing from \ and 3 to 3
a solution of washing powder and
water run through the oil cups while
the machine is running without any
load. The solution, cutting out the dirt
and grime, will come from the bearing
very black. About 1 pt, of this mixture
should be run through each bearing,
then clean thoroughly with clear water.
oog Ic
A Water Candlestick
A gUss of water makes a fine emer-
gency candlestick. Weight one end of
PUn ot Haguine Binder
the candle with a nail just large enough
to hold the candle in the water so that
the water comes near its top edge, but
does not touch the wick, and then light
the candle.
It will burn until the last vestige of
wick is gone and the flame will not
flicker. The melted tallow that runs
down but serves to hold the candle
more stationary.
Uaiulna Binder Complcta
How to File Soft Metals
When filing soft metals, such as
solder or babbitt metal, the file, after a
few strokes, will become filled with
metal, causing scratches on the surface
being filed. The surface may be filed
smooth, provided the file has been well
oiled. The oil prevents the cutters
from clogging and also allows the metal
to yield easily. Oil the file every few
minutes and use a card frequently in
cleaning and the work will be smooth.
— Contributed by Jno. E. Ganaway,
Paducah, Ky.
To Make a Magazine Binder
Get Yi yd. of cloth, one shoestring, a
pasteboard box for covers, and some
heavy paper.
Cut the paste-
board into two
c o V e rs, 14 in.
larger all
around than the
magazine, e x-
cept at the back
with which
they should be
even. Next cut'
a strip 1 in.
wide off the
back of each
cover. Place
the covers on
the cloth, Fig.
l,with the back
edges % in. far-
ther apart than the thickness of the
volume to be bound. Cut the cloth
around the covers, leaving 1^ in. mar-
gin. Paste the cloth on the covers as
they lay, and turn over the 1^ in. mar-
gin, pasting down smoothly. Cut a
piece of stiff paper to fit and paste on
the back. Take a piece of cloth as
wide as the cover, and long enough to
extend over the back and IJj^ in. be-
yond each "strip."
Paste on to hold all
together. Two pieces
of paper the exact size
of the magazine,
pasted on the inside of
each cover protects
the edges of the cloth,
and adds to the appearance. Let dry
slowly.
With backs and edges of magazines
even, place in a vise and set up tight
allowing % in. from back to show above
the vise. Bore three 3/16-in. holes ^
in, from the back, one in the middle,
the other two IVs in. from each end.
Make corresponding holes in the strips
of the binder and use the shoestring to
complete as in Fig, 2.
A piece of wire solder makes a good
temporary spline for the draftsman.
ly v^<v.^v_'viv_
A LJbrary Set in Pyro-Carving
By HELEN WESTINGHOUSE
The multitude of indifferently ex-
ecuted small articles which followed
the introduction of pyrography is be-
ginning to disappear. People are con-
sidering the art more seriously and
lief. It is then burned deeply, the
background in straight flat strokes, the
outlines having the effect of a sloping,
dark edge. The shadows are burned
in as deeply as possible and the shad-
Tiblc md Scit Dec on ted in Prro-Catvini
applying it to more dignified uses.
Pyro-carving is one of the new meth-
ods of decorating furniture which is
both beautiful and practical, two quali-
ties which do not always go together.
The library set illustrated consists of
a table, 30 to 50 in., with two benches,
14 in. wide, of the same length. The
supports are made of selected white
pine, which must be absolutely free
from pitch. The pine is soft enough to
work easily with the point and stands
wear much better than basswood. The
tops and braces are made of curly fir.
All of the material must be 8-in. lum-
ber, which dresses to about l^/o in.
All surfaces, except the faces of the
supports, are given a well rubbed coat
of oil with a little burnt umber, the
stain to be applied directly to the wood
without a filler.
On the outside of the supports the
design is drawn in with pencil, the
background is then cut out smoothly
with a chisel to the depth of an eighth
of an inch, leaving the decoration in re-
ing is put in with the flat of the point.
A wax or eggshell oil-varnish finish
is most suitable for this set, but any
other finish may be applied, as the
builder may desire, to make it har-
with other furnishings.
Cleaning Brass
Small brass castings can be cleaned
by heating them slightly and then dip-
ping them in a solution of sal ammo-
niac. The pieces will come out as
bright and clean as if new. This clean-
ing process is the same as that used in
cleaning a soldering iron,
A Phoneidoscope
The phoneidoscope has many and
varied forms, but the simplest can be
made by bending the forefinger and
thumb so as to form a circle and then
drawing a soap film across the opening.
This is done in a manner similar to the
blowing of scan hubbies.
lOOglc
The angle with the direction of the light
may be readily adjusted by turning the
wrist, a motion of the elbow alters the
distance from the mouth and the ten-
sion of the film can be regulated by
moving the thumb and forefinger.
Singing or speaking at the film when
under proper tension will cause beauti-
ful figures to appear, which may be re-
flected from the film directly on the
screen. — Contributed by Robt. E. Brad-
ley, Winchester, Mass.
A Home-Made Yankee Bobsled
A good coasting sled, which I call a
Yankee bob, can be made from two
hardwood barrel staves, two pieces of
Hade of Band 8ta*M
S by 6-in. pine, a piece of hardwood for
the rudder and a few pieces of boards.
The 3 by 6-in. pieces should b^ a little
longer than one-third the length of the
staves, and each piece cut tapering
from the widest part, 6 in., down to 2
in., and then fastened to the staves with
large wood screws as shown in Fig, 1.
Boards 1 in. thick are nailed on top of
the pieces for a seat and to hold the
runners together. The boards should
be of such a length as to make the run-
ners about 18 in. apart.
A 8-in. shaft of wood, Fig, 2, is
turned down to 1 in. on the ends and
put through holes that must be bored
in the front ends si the 2 by 6-in.
pieces. A small pin is put throtigli
each end of the shaft to keep it in place.
The rudder is a 1%-in. hardwood piece
which should be tapered to % in. at the
bottom and shod with a thin piece of
■ iron. A ^-in. hole is bored through
the center of the shaft and a lag screw
put through and turned in the rudder
piece, making it so the rudder will turn
right and left and, also, up and down.
Two cleats are nailed to the upper sides
of the runners and in the middle
lengthways for the person's heels to
rest against.
Any child can guide this bob, as all
he has to do is to guide the rudder
right and left to go in the direction
named. If he wants to stop, be pulls
up on the handle and the heel of the
rudder will dig into the snow, causing
too much friction for the sled to go any
further. — Contributed by Wm. Algie,
Jr., Little Falls, N. Y.
How to Make a Small Microscope
Theoretically a simple microscope
can be made as powerful as a com-
pound microscope, but in practice the
minute size required by the simple lens
to give the highest power makes it al-
most impossible to be used. However,
a lens having a reasonable magnifying
power can be made in a few minutes for
almost nothing. Take a piece of glass
tubing, heat one place in a hot flame,
hold one end and pull on the other and
draw the heated place down to a fine
string as shown in Fig. 1. Take about
3 in. of this fine tube and heat one end
which will form a glass bead as shown
in Fig. 2. This bead is the lens. When
in this form it can be used only in an
artificial light coming from one direc-
tion, but if you take a piece of card-
LcDi Formed by Hut
board and bore a hole in it a tittle
smaller than the bead on the glass tube
which is forced into the hole. Fig. 3,
ly \^JV.^V_'V1V_
you can use this mounted lens
dinary daylight. In this case'a i
must be used to reflect the light up
throueh the lens. It is difficult to see
anythmg at first, as the lens must be
held very close to the eye, but in prac-
tice you will soon learn to see the ob-
ject as it appears enlarged.
If you soak a little dried grass or
hay in water for a few days and look
at a drop of this water, germs in vari-
ous life forms can be seen. The water
must be put on the lens. One thing to
remember is that the smaller the lens,
the greater the magnifying power, —
Contributed by Daniel Gray, Decatur,
Illinois.
The water in hot water supply pipes
will freeze quicker than water that
has not been heated. This is because
the air, which is a poor conductor of
heat, has been driven out by the heat-
How to Carry Books
Almost all school children carry th«r
books with a strap put around and
buckled very
tight This will
make dents i n
the cover where
the board over-
laps the body of
the book. If the
strap is left
loose, the books
are liable to slip
out. Place the
cover of one book between the cover
and fly leaf of its neighbor and the
difficulty will be remedied. This will
place the books in alternate directions.
Books stacked in this manner do not
require the strap "buckled tight, or,
they can be carried without any strap
just as well. — Contributed by Thos. De
Loof, Grand Rapids, Mich.
BOTTLE PD8RBRS.— TUi b m guM hi wUek tlw empatlton pinh bonis on th* lea with
bockcr itUfcf. All the boitlei mnt be tha miiw dn ud inak*. Tb« ptnooi puttdpatJav most kaep
thcb bottlM nprifht u ill times. Ttu bottltt ut llntd op for tb* atut aod it tta* worT "(O." auk
paMoa pulM* K botUi icnMB 41m Geld for ■ dlfnco thit k ((rMd ^oo.
ly v^<^-'V_'VI
■"»'
How to Make a Hammock
Any one can make a hammock as
good as can be bought and that at a
cost so small that every member of
the family can possess one providing^
there are places enough for hanging
them.
The materials required are a needle
about 7 in. long, and with a big eye, an
iron ring for each end of the hammock,
two long smooth sticks on which to
knit the hammock and two pounds of
strong hemp cord or twine. The twine
may be colored in any color or com-
bination of colors desired. A Roman
stripe at each end of the hammock
makes a pretty effect.
A hammock 45 in. wide will not be
too large for solid comfort. To knit it
first thread the big needle and holding
it in the left hand, hold the cord in
Silace with the thumb until you have
ooped the cord over the tongue, then
pass the cord under the needle to the
opposite side and catch it over the
tongue. Repeat this operation until the
needle is full. Cut a 8-yd. length of
cord and make a loop and fasten to the
door knob or to some other convenient
place. Tie the cord on the needle to
this loop 3 in. from the end of the loop.
Place the small mesh stick under the
cord with the beveled edge close to the
loop, and, with a thumb on the cord to
hold it in place, pass the needle around
the stick and then, point downward,
pass it through the loop from the top.
Tl» W«t«r Tel«cop«
and then bring it over the stick so form-
ing the first half of the knot.
Pull this tight and hold in place with
a thumb while throwing the cord over
your hand, which forms the loop. Pass
the needle from under through the loops
and draw fast to fasten the knot. Hold
this in ijlac" -isii repeat the operation.
Make 30 of these knots and then push
them off the stick and ptoceed in the
same way with the ne»^ row, passing
the needle first through each of the
30 knots mude for the first row.
Make 30 rows and then tie the last
loops to the other iron ring. Stretchers
may be made and put in place and the
hammock, strong and durable, is fin-
ished. The work must be carefully and
evenly done. One is apt to have a little
trouble getting the first row right, but
after that the work proceeds quite
rapidly.
How to Obtain Che^ Diy Batteries
Not very r- ..y people realize that
good, serviceable dry cells can be ob-
tained from an automobile garage very
cheap. These cells having been "run
out" beyond the required number of
amperes for automobile use, will give
excellent service, considering their cost.
Many of them will give two-thirds of
their original amperage. Six of such
cells have been in use on my door-bell
circuit for nearly a year. They can be
used for other purposes just as well. —
Contributed by H. H. Cutter.
How to Make a Water TdesccqK
Before you decide on a place to cast
your hooic it is best to look into the
water to see whether any fish are there.
Yes, certainly, you can look into the
water and see the fish that are
there swimming about, if you
!e{b have the proper equipment.
._« What you need is a water tele-
scope. This is a device made
of wood or metal with one end
of glass. When the glass end is
submerged, by looking in at the open
end, objects in the water are made
plainly visible to a considerable depth.
In Norway, the fishermen use the wa-
ter telescope regularly in searching for
herring shoals or cod.
All that is necessary to make a
wooden water telescope is a long
wooden box, a piece of glass for one
l:v v^f^-'V-'Vlv.
""6"
end and some paint and putty for mak-
ing the seams watertight. Fix
the glass in one end of the box,
and leave the other open to look
through.
A tin water telescope is more
convenient than the wooden
one, but more difficult to make.
The principal essential for this
is a circular piece of glass for
the large end. A funnel shaped
tin horn will do for the rest.
Solder in the glass at the large end
and the telescope is made. Sinkers con-
sisting of strips of lead should be sol-
dered on near the bottom to counter-
act the buoyancy of the air contained
in the watertight funnel and also helps
to submerge the big end. The inside
of the funnel should be painted black
to prevent the light from being reflect-
ed on the bright surface of the tin. If
difficulty is found in obtaining a cir-
cular piece of glass, the bottom may
be made square and square glass used.
Use plain, clear glass ; not magnifying
glass. To picnic parties the water tel-
escope is of great amusement, revealing
numerous odd sights in the water which
many have never seen before.
How to Rid Your Yard of Cats
The following is a description of a
device I built at my home in Brooklyn,
which not only gave us relief from the
along the top of the fence about 1 in.
Wooden WitH Ttltuop*
apart, fastening them down with small
staples, care being taken that thisy did
not touch. To the ends of these wires
I fastened ordinary insulated bell wire,
running them to the house anti con-
necting them to the upper binding-
posts of an mduction coil ; I then ran
a wire from the lower binding-^ost of
my coil through the batteries l^ck to
the other lower binding-post of coil,
breaking the circuit by putting in an
ordinary switch. The more baftteries
used, the stronger the current. The
switch should always be left open, as
it uses up the current very rapidly.
When "tabby" is well on the wires I
close the switch and she goes the length
of the fence in bounds, often commg
back to see what the trouble is, thus
receiving another shock. — Contributed
by Charles L. Pultz.
A gouge may be used as a substitute
Wires
I
N
nightly feline concerts, but also fur-
nished much amusement to my friends.
I first ran two bare copper wires
bit if a proper sized bit is not at band.
The gouge can be placed in (he brace
the same as a bit.
d by Google
Diylng FQins
The drjring of photographic film in
full lengths without scratching or curl-
ing is quite difficult Various devices
are used to keep the film straight, and
Vlat Kmp iIm Film Stnlfbt
push pins or thumb tacks are supplied
with almost all of them. The illus-
tration shows a simple and inexpensive
device constructed of common wood
clothespins without any metal pins to
come in contact with the film and
cause rust streaks. A pair of pins are
fastened at each end of the film by
pushing one pin over the other which
in turn is clamped on the film. A string
tied to the heads of one pair of pins
provides a way to hang the whole on a
nail. The lower pair of pins makes a
weight to keep the film straight. — Con-
tributed by ]. Mac Gregor, Montreal,
Canada.
Grooved Pulley Made from Sheet Tin
A grooved pulley which will run true
and carry a round belt may be made
without the use of other tools than a
compass and pair of shears, with a drill
or punch for making two rivet holes.
Lay off a circle on the tin, of the di-
ameter desired for the bottom of the
groove. Then lay off a concentric
circle of ^4 m. greater radius. Cnt
out along the lines of the large circle.
On the line of the small circle mark
with a prick punch or nail a series of
slight dents, about % in. apart, all the
way around. Now make cuts from the
line of the large circle to these dents,
stopping when the shears give the lit-
tle "click" on entering the dent. Bend
the little tongues thus formed alter-
nately to the right and left, then by
shaping them with some care you will
have a good running surface for the
belt It will not make any difference if
there are more tongues on one side
than the other, or if they are not equally
spaced, within reason.
For the hub, solder or rivet a
"handle" across the center hole and
drill a hole throagh it of the same size
as the center hole. With the help of
solder a grooved pulley which will
answer almost every experimental
purpose may be made, and it is re-
markable with how slight care a per-
fectly true wheel may be made in this
manner.
The same principle might in some
way be applied to gear-wheels, for light
and temporary use. — Contributed by
C. W. Nieman, New York City.
An Bnui^ency Glass Funnel
Secure a glass bottle having a small
neck and tie a string saturated in kero-
sene aroand
the outside
at A and B
as shown in
the sketch.
Light the
string and
allow it to
burn until
the glass is
heated, then plunge the bottle quickly
into water. The top or neck will then
come off easily. The sharp edges are
ground or filed off smooth. This will
make a good emergency funnel which
serves the purpose well for filling wide
necked bottles. — Contributed by Jos.
W. Sorenson, Everett, Wash.
joglc
An Electrical Walking Stick
A cane that will produce an electric
shock when shaking hands is one sup-
plied with the electrical apparatus
shown in the sketch. An ordinary
cane, 1 in. in diameter at the top and
having a metal band A, is bored about
8 in. deep, to receive the battery B and
induction coil C. One of the electrical
connections is through the metal tip D
to the earth, the other is through the
and sides. The scraper shown in the
sketch is of simple construction, and
removes the mud from the soles and
^y
,Jli,
Battnr and CoU Id Cbm
metal band A when the push button E
is pressed.
The one using the cane merely holds
the metal end D in contact with the
earth and while shaking hands with a
friend he pushes the button and starts
the coil in operation. — Contributed by
Stanley Radcliffe, Laurel, Md.
Convenient Shelf Arrailgement
A convenient device for crowded
shelves and cupboards is shown
in the accom-
panying sketch.
Halfway be-
tween shelves A
and B is in-
stalled a second
shelf C which is
only half as
wide as the other
shelves. This
provides a convenient place for small
articles and utensils, white in a china
closet it furnishes a splendid space for
cups, sauce dishes or other small
pieces. It also adds a neat and pleas-
ing appearance. — Contributed by E.
M. Williams. Oberlin, Ohio.
A Shoe Scraper
On steps of public buildings, shops
and dwellings is usually found some
sort of a mud scraper for the shoes.
These remove the mud from the sole
of the shoe and leave it on the edge
sides of any size shoe in one opera-
tion. The scrapers spread and bring
pressure to bear on all sizes. The side
scrapers must be made of metal that
will spring. The standard is of heavy
sheet metal with the thinner strips
riveted to the projecting uprights at
the ends.
Fastening a Shade to a Roller
Tack the shade A in the usual man-
ner and roll it as far back as possible
and while in this
position apply
an ample quan-
tity of glue near
the tacks, as
shown at B. A
shade attached in this manner will not
come loose from the roller.
Vegetable Slicer
The slicer is made of a knife blade,
screw and pin handle. The screw is
soldered into the end of the knife blade.
As the screw feeds into the vegetable
or fruit, the blade will slice it in a curl
of even thickness. — Contributed by H.
C. Roufeldt, Toledo, O.
lOOglc
8 or 10 gauge, cut to 7 by 7%. in. Make
a design on a piece of paper. The ac-
companying sketch offers a suggestion.
How to Make an Etched Copper Picture Frame
Secure a heavy piece of copper about than one-half. Do not add the water to
the acid. L^eave the metal in this solu-
tion three or four hours. The time will
depend upon the strength of the acid
and the depth to which you wish the
etching to be done. An occasional ex-
iimination of the object will show
when to take it out.
When the etching has been carried
as far as desirable, take the copper from
the bath and remove the asphaltum by
scraping it as clean as possible, using
an old case knife. After doing this, put
some of the solution, or pickle as it is
called, in an old pan and warm it over
a flame. Put the metal in this hot
liquid and swab it with batting or cloth
fastened to the end of a stick. Rinse
in clear water to stop the action of the
acid. When clean, cut the metal out
from the center where the picture is to
be placed, using a metal saw..
Solder on the back several small clips
with which to hold the picture in place.
There must also be a support soldered
in place to keep the frame upright. To
further clean the metal before solder-
ing, use a solution in the proportion of
one-half cup of lye to 3 gal. water.
Heat either the solution or the metal
just before using.
When soldering, care must be taken
to have the parts to be soldered thor-
Btcbed Copper Kcturt Pnune
If the design is to be symmetrical,
draw a line down the middle of the
paper, make one -half the fold and trace
the remaining half by placing a piece
of double-surfaced carbon paper be-
tween the halves. Fasten this design
with a little paste on the copper at two
of its corners and traco it on the copper oughly clean. Any grease or foreign
by means of the carbon paper.
Remove the paper, and, with a small
brush and black varnish or asphaltum
paint, cover the part not to be eaten by
the acid of the bath into which the
metal is to be immersed. Two or three
coats will be necessary to withstand
the acid. The conventional trees, the
border as shown in the illustration, and
the back are covered with the varnish
or asphaltum.
matter will prevent the solder from
running properly. On a piece of slate
slab, heavy glass or other hard, non-
absorbent substance that is clean, put
a little water and grind a lump of borax
around until the resultant is like thin
cream. Thoroughly clean the parts
that are to be soldered by scraping
with a knife, and do not touch with the
fingers afterward. Place a piece of thin
silver solder between the parts after
The etching solution should be put having coated them and the solder with
in a stone vessel of some kind and the borax. Use a pair of tweezers to
care should be taken not to allow it pick up the solder. Hold the parts
to get on the hands or clothes. A stick firmly together and apply heat — slowly
should be used to handle the metal at first until all moisture has been ex-
while it is in the solution. This solu- pelled and the borax crystallized, after
tion is made by putting in the stone which the flame may be applied more
jar the following : Water a little more directly and the parts brought to a
than one-half, nitric acid a little less soldering heat An alcohol flame^ will
l:v v^J>^^v_'Vlv_
do. Heat applied too quickly will
throw off the solder and spoil the
attempt.
painted in some pretty tint, or, if pre-
ferred, may be enameled. — Contributed
by G. J. Tress.
T
LF
=a
^
There are various ways of finishing
the metal. It may be polished by
means of powdered pumice, chalk or
charcoal, and then treated with a coat
of French varnish diluted ten times its
volume in alcohol. Another popular
way is to give the background a bluish-
green effect by brushing it over a great
many times, after it has been cleaned,
with a solution composed of muriate
of ammonia, 1 part; carbonate of am-
monia, 3 parts; water, 24 parts. The
whole may then be treated with French
varnish to preserve the colors.
How to Make an Easel
A strong and substantial easel may
be made at home with very Httle ex-
pense and no great difficulty.
Smooth down with a plane, four
pieces of pine, 1 in, thick, 4 in. wide
and 4 ft. long, until suitable for legs.
Make three cross-pieces. Fig. 1, and
join the legs with them as shown in
Fig. 2. With an auger bore a hole in
each leg about 3 in. from the bottom,
and fit into each a little peg, Fig. 2, for
the picture to rest on. The peg should
be of hardwood so it will not break.
Cut the handle from an old broom,
measure off the right length, and put a
hinge on one end. Fasten this leg on
the second cross-piece, thus forming a
support for the two front legs, Fig, 3.
The easel may be finished according to
the individual taste. It may be sand-
papered and stained and varnished, or
How to Make a Wind Propeller
A wind propeller may be constructed
with four old bicycle wheels arranged
with shafts pretty much like the shafts
of a hand-propelled cart. The platform
is flatter, how-
ever, and the
body one tier
so that it is
lower, A
framework of
wood is built
at M and this
is a support
The sail is se-
WlDd ProiMller
for several purposes,
cured to the mast which is fixed into
the body of the cart as shown. The
sail is linen fabric. There are two cross-
pieces to aid in keeping the sail prop-
erly opened. The steering arrangement
is through the rear shaft. The shaft is
pivoted as in a hand-propelled cart, and
the rod I extends from the middle con-
nection of the shaft up to a point where
the person seated on the wooden frame
can handle it. There is a brake ar-
ranged by making a looped piece J and
hinging it as shown. This piece is
metal, fitted with a leather face. The
cord K is pulled to press the brake.
I marks the support for the mast un-
derneath the body of the cart. In a
steady breeze this cart spins nicely
along the roads.
Never change a single ball in a bear-
ing. Renew them all.
d by Google
How to Construct an Annunciator
Oftentimes a single electric bell may
be connected in a circuit so that it
can be operated from more than one
push button. These push buttons are
usually located in entirely different
parts of the building and it is neces-
sary to have some means of determin-
ing the particular push button that was
pressed and caused the bell to operate.
The electric annunciator is a device
that will indicate or record the various
calls or signals that may be sent over
the circuits to which the annunciator
is connected. A very simple and inex-
pensive annunciator may be made in
the following way :
Before taking up the construction of
the annunciator it would be best to
make a diagrammatic drawing of the
circuit in which the annunciator is to
operate. The simplest circuit that will
require an annunciator is one where the
bell may be operated from either of
two push buttons. In this case the an-
nunciator must be constructed to give
only two indications. Fig. 1 shows how
the various elements of such a circuit
may be connected. Bis an ordinary vi-
brating electric bell. Ml and MS are
the two electromagnets of the annun-
ciator, A is a battery of several dry
cells, and PI and P2 are the push but-
tons from either of which the bell may
be operated.
When the push button Pi is pressed
the circuit is completed through the
winding of the magnet Ml and its core
becomes magnetized. In a similar
manner the core of the magnet M3 be-
comes magnetized when the push but-
ton P2 is pressed and the circuit com-
pleted through the winding of the mag-
net M2.
If an iron armature, that is supported
by a shaft through its center and
properly balanced, be placed near the
ends of the cores of Ml and M3, as
shown in Fig. 2, it may assume the
position indicated by either the full or
dotted lines, depending upon which of
the magnets. Ml or MS, was last mag-
netized. The position of this armature
will serve to indicate the push button
from which the bell was operated. The
magnets should be placed inside a case
and the indication may be made by a
pointer attached to the shaft, support-
ing the armature.
If you are able to secure the electro-
magnets from a discarded electric bell
they will work fine for the magnets Ml
and M8. They should be disconnected
from their iron support and mounted
upon some non-magnetic material, such
as brass or copper, making the dis-
tance between their centers as small as
possible. The piece of metal upon
which the magnets are mounted should
now be fastened, by means of two wood
screws, to the back of the board, shown
in Fig. 6, that is to form the face of
the annunciator. It should be about
H in. thick, J^ in. wide and long
enough to extend a short distance be-
yond the cores of the magnets Ml and
M2. Drill a 1/16-in. hole through its
center, as shown in Fig. 2. Drive a
piece of steel rod into this hole, mak-
ing sure the rod will not turn easily in
the opening, and allow about % in. of
the rod to project on one side, and
1^^ in. on the other side.
Drill a hole in the board upon which
the magnets are mounted so that when
the long end of the rod carrying the
armature is passed through the hole,
the armature will be a little more than
1/16 in. from each magnet core. The
short end of the rod should be
sup-
ported by means of a piece of strip
brass bent into the form shown in
Fig. 3.
Drill a hole in the center of this
piece, so the rod will pass through it.
When the armature has been put in its
proper place, fasten this strip to the
board with two small wood screws.
You may experience some difficulty
in locating the hole in the board for
the rod, and it no doubt would be best
to drill this hole first and fasten the
magnets in place afterwards.
Two small collars should be fastened
to the rod to prevent its moving ead-
ly V^JV.^V_'V1^_
n!se. Pit th« collars tightly on the rod
to hold them in place.
Cut the long end of the rod off so it
projects through the face of the an-
nunciator about % in. Take some very
thin sheet brass and cut out a needle or
indicator as shown in Fig. 4. In a
small piece of brass drill a hole so it
will fit tight on the other end of th^
rod. Solder the indicator to this piece
and force it in place on the end of the
rod.
When the armature is the same dis-
face of the case; three whose dimen-
sions correspond to those of Figs. 7,
8, and 9 and are to form the lower and
upper end of the case and the finish fat
the top.
Secure a piece of window glass, 4^
in. by 3% in. that is to be used as the
front Before assembling the case cut
on the inner surface of the pieces form-
ing the sides and the lower end, a
groove just wide enough to take the
glass and 1/16 in. in depth. The outer
edge of this groove should be % in.
t$
•£
m
t —
j
m
Mg
1 II 1
DtuU* of tht AimmiftiWK
tance from each core, the indicator
should be parallel to the long dimen-
sion of the face of the case. The case
of the instrument may be made in
the following way:
Secure a piece of %-in. oak, or other
hard wood, 3 in. wide and 2^ ft. long.
Then ait from this board the follow-
ing pieces: two whose dimensions cor-
respond to those of Fig. 5 and are to
form the sides of the case ; two whose
dimensions correspond to those of Fig.
6 and are to form the back and the
from the outer edge of the frame. After
the case is fastened together there
should be a slot between the piece
forming the upper end and the piece
that serves as a finish at the top, that
will allow the glass to be slipped into
place. A small strip of wood should be
tacked over this slot, after the glass is
put in place, to prevent the dust and
dirt from falling down inside of the
case.
The piece upon which the works are
to be mounted may be fastened in place
izccbyGOOgIC
by means of four round-headed brass
screws that pass through the sides of
the case. It should be fastened about
% in. back of the glass front. The
back may be fastened inside of the case
in a similar manner.
Cut two pieces, from some sheet
brass, whose dimensions correspond to
those of Fig. 10. These pieces are to
be used in supporting the case by means
of some small screws. Fasten three
binding-posts, that are to form the ter-
minals of the annunciator, on the top
of the upper end of the case. Mark
one of these binding-posts C and the
other two LI and L2. Connect one ter-
minal of each of the magnet winding^
to the post marked C and the other
terminal to the posts LI and L2. You
can finish the case in any style you may
desire. Oftentimes it is desirable to
have it correspond to the finish of the
woodwork of the room in which it is
to be placed. The distance the point
of the indicator will move through de-
pends upon the distance between the
cores of the magnets and the distance
of the armature from these cores. These
distances are oftentimes such that the
indications of the cell are not very defi-
nite. If the armature is moved too far
from the cores there is not sufficient
pull exerted by them when magnetized,
to cause the position of the armature
to change.
Mount on the shaft carrying the ar-
mature a small gear wheel. Arrange
another smaller gear to engage this on
and fasten the indicator to the shaft
of the smaller gear. Any movement
now of the armature shaft will re-
sult in a relative large movement of the
indicator shaft. Figure 11 shows the ar-
rangement of the gears just described.
How to Make a Steam Calliope
Secure ten gas jet valves, the part
of the gas fixture shown in Fig. 1, and
prepare to place them in a piece of
1-in. pipe, 12 in. long. This is done
by drilling and tapping 10 holes, each
DMiili of Uw CaUlopB
1 in. apart, in a straight line along the
pipe. The valves screwed into these
holes appear as shown in Fig. 2. The
whistles are made from pipe of a dia-
meter that will fit the valves. No di-
mensions can be given for the exact
lengths of these pipes as they must be
tried out to get the tone. Cut ten
pieces of this pipe, each one of a dif-
ferent length, similar to the pipes on a
pipe organ. Cut a thread on both ends,
put a cap on the end intended for the
top, and fit a plug in the other end.
The plug must have a small portion of
its side filed out, and a notch cut in the
side of the pipe with its horizontal
edge level with the top of the plug.
This part of each whistle is made sim-
ilar to making a hark whistle on a
green stick of willow. The pipes are
then screwed into the valves.
The whistles may be toned by trying
out and cutting off pieces of the pipe,
or by filling the top end with a little
melted lead. The 1-in. pipe must have
a cap screwed on one end and the
other attached to a steam pipe. The
steam may be supplied by using an
old range boiler, placed horizontally
in a fireplace made of brick or sheet
iron. If such a boiler is used, a small
safety valve should be attached. The
keys and valve operation are shown in
Fig. 3. This is so plainly illustrated
that it needs no explanation. — Contrib-
uted by Herbert Hahn, Chicago.
oog Ic
Sharpening Scissors
When sharpening scissors on a
grindstone it is very difficult to procure
a straight edge. For those not having
the facilities of a grinding arrangement
a very handy device that will produce
a straight and sharp edge can be easily
constructed as follows:
Procure a block of wood, lYz in.
long, 1 in. wide and Ys in. thick, aud
saw a kerf square with the face of the
block, as shown at A. Attach a piece
of fine emery cloth in the kerf, at B,
with glue, taking care to have it flat on
the sloping sur^ce only and allowing
no part of the cloth to turn the sharp
comer and lie on the back side. Apply
the block to the scissor blade as shown
and draw it back and forth from one
end to the other, being careful to keep
the back side of the blade flat against
the block. Without being familiar
with scissors grinding, anyone can
sharpen them correctly with this block.
— Contributed by Harriet Kerbaugh,
AUentown, Pa,
Counter Brush for a Shop
A very serviceable brush for use
around a shop can be made from a dis-
carded or worn-out push broom as
shown at A. Pull out the bristles
from one-half of the brush and shape
the wood of that end with a knife or
KVheiitd Puib I
spokeshave to the form of a handle,
and the brush will be formed as shown
at B.— Contributed by James T. Gaff-
ney, Chicago-
A Curtain Roller
Procure a window-shade roller, an
umbrella rib and two strips of oilcloth,
each 1 in. wide and 4 in. long. Cut the
roller off so that it will be 6 in, longer
than the distance across the window,
then cut a groove in it to insert the rib.
Sew the pieces of oilcloth so that they
will just fit over the ends of the roller.
When this is done lay the curtain
across the groove, then press the rib
and curtain into the groove and push
the oilcloth bands over the ends of the
rib to keep it in place. — Contributed by
E, L. McFarlane, Nashwaakees, N. B.
Shade-Holder Bracket for a Gas Jet
An old umbrella rib makes a very
effective shade-holder bracket for a
gas jet. The ends of the rib are bent
to fit around the pendant upright
and the support end is shaped into
a hook. It can be quickly applied
or removed. The outer end
is bent into a hook to
hold the shade. The rib can be cut to
fit a pendant arm of any length. —
Contributed by Edward Keegstra,
Pater son, N. J.
To Longer Preserve Cut Flowers
A good way to keep cut flowers fresh
is to place a small amount of pure salt
of sodium in the water. It is best to
procure this salt at a drug store be-
cause commercial salt will cause the
flowers to wither, due to the impurities
in the soda. Call for pure sodium
chloride.
d by Google
Glass Blowing
Fortunate indeed is the boy who re-
ceives a stock of glass tubing, a Bun-
sen burner, a blowpipe, and some char-
coal for a gift, for he has a great deal
of fun in store for himself. Glass
blowing is a useful art to understand,
if the study of either chemistry or
physics is to be taken up, because much
apparatus can be made at home. And
for itself alone, the forming of glass
into various shapes has not only a good
deal of pleasure in it, but it trains the
hands and the eye.
Glas^, ordinarily brittle and hard, be-
comes soft and pliable under heat.
When subjected to the action of a
flame until dull red, it bends as if made
of putty; heated to a bright yellow,
it is so soft that it may be blown,
pulled, pushed or worked into any
shape desired. Hence the necessity for
a Bunsen burner, a device preferred
to all others for this work, because it
gives the hottest flame without soot or
dirt. The Bunsen burner, as shown
in Fig. 1, is attached to any gas bracket
with a rubber tube, but the flame is
blue, instead of yellow, as the burner
introduces air at its base, which mixes
with the gas and so produces an almost
perfect combustion, instead of the par-
tial combustion which results in the
ordinary yellow flame. All gas stoves
have Bunsen burners, and many oil
stoves.
If gas is not available, an alcohol
lamp with a large wick will do almost
as well. The blowpipe, shown in Fig.
2, is merely a tube of brass with the
smaller end at right angles to the pipe,
and a fine tip to reduce the size of the
blast, which is used to direct a small
flame. Besides these tools, the glass
worker will need some round sticks of
charcoal, sharpened like a pencil, as
shown in Fig. 3, a file, and several
lengths of German glass tubing.
To bend a length of the tubing, let
it be assumed for the purpose of mak-
ing a syphon, it is only necessary to
cork one end of the tube and heat it
near the top of the Bunsen flame, turn-
ing the tubing constantly to make it
and Fomung
heat evenly on all sides, until it is a
dull red in color. It will then bend of
its own weight if held in one band,
but to allow it to do so is to make a
flat place in the bend. The heating
should be continued until the red color
is quite bright, when the open end of
the tube is put in the mouth and a
little pressure of air made in the tube
by blowing. At the same time, the
tube is bent, steadily but gently. The
compressed air in the tube prevents it
from collapsing during the process.
To make a bulb on the end of a
tube, one end must be closed. This is
easily done by heating as before, and
then pulling the tube apart as shown
in Fig. 4. The hot glass will draw,
just like a piece of taffy, each end
tapering to a point. This point on one
length is successively heated and
pressed toward and into the tube, by
means of a piece of charcoal, until the
end is not only closed, but as thick as
the rest of the tube, as in Fig. 5. An
inch or more is now heated white hot,
the tube being turned continually to
assure even heating and to prevent the
hot end from bending down by its own
weight. When very hot, a sudden puff'
into the open end of the tube will ex-
pand the hot glass into a bulb, as in
Fig. 6. These can be made of con-
siderable size, and, if not too thin,
make very good flasks (Fig. 1) for
physical experiments. The base of the
bulb should be flattened by setting it,
still hot, on a flat piece of charcoal, so
that it will stand alone.
To weld two lengths of glass tubing
together, heat the end of a tube and
insert the point of a piece of charcoal
in the opening, and twirl it about until
the end of the tube has a considerable
flare. Do the same to the end of the
other tube, which is to be joined to the
first, and then, heating both to a dull
red, let them touch and press lightly
together as in Fig. 8. As soon as they
are well in contact, heat the two joined
flares together, very hot, and, pulling
slightly, the flares wilt flatten out and
the tube be perfectly joined. Tubes
l:v v^JV.^v_'Vl^_
joined without previous flaring have a
constricted diameter at the joint
To make a T-joint in two pieces of
tubing, it is necessaiy to make a hole
in the side of one piece, as shown at
A in Fig. 9. This is accomplished by
the aid of the principle of physics that
gases expand when heated. Both ends
of the tube, which should be cold, are
corked tightly. The whole is then
gradually warmed by being held near
the flame. When warm, a small flame
is directed by the blowpipe from the
Bnnsen flame to a spot on one side of
attraction, water or other liquid rising
in them when they are plunged into it,
are made by heating as long a section
of tubing as can be handled in the
flame — 2 in. will be found enough —
and, when very hot, giving the ends a
sudden vigorous pull apart. The tube
pulls out and gets smaller and smaller
as it does so, until at last it breaks.
But the hne thread of glass so made
is really a tube, and not a rod, as
might be supposed. This can be dem-
onstrated by blowing through it at
a gas flame, or by immersing it in
r
r.a.2
1
<1
ananiBc
F**
'
^';
^^O
the closed tube. As it heats, the air
within the tube expands and becomes
compressed, and as soon as the hot
spot on the side of the tube is soft
enough, the confined air blows out,
pushmg the hot glass aside as it does
so, leaving a small puncture. This is
to be enlarged with pointed charcoal
until it also flares as shown at B. This
flare is then connected to the flared
end of- a straight tube, C, and the T*
joint, D, is complete.
Using the blowpipe is not difficult.
The lips and cheeks should be puffed
out with a mouthful of air, which is
ample to blow a flame white the lungs
are being refilled. In this way, it is
possible to use the blowpipe steadily,
and not intermittently, as is necessary
if the lungs alone are the "bellows."
Small glass funnels, such as are used
in many chemical operation's, are made
by first forming a bulb, then punctur-
ing the bulb at the top, when hot, with
a piece of charcoal, and smoothing
down or flaring the edges. Very small
and fine glass tubes, such as are used
in experiments to demonstrate capillary
colored liquid. The solution will be
seen to rise some distance within the
tube, the amount depending on the
diameter of the tube.
The file is for cutting the glass tub-
ing into lengths convenient to handle.
It should be a three-cornered file, of
medium fineness, and is used simply to
nick the glass at the place it is de-
sired to cut it The two thumbs are
then placed beneath the tube, one on
each side of the nick, and the tube
bent, as if it were plastic, at the same
time pulling the hands apart. The tube
will break off squarely at the nick,
without difficulty.
The entire outfit may be purchased
from any dealer in chemical or physical
apparatus, or any dru^st will order
it. Enough tubtng to last many days,
the Bunsen burner, blowpipe, file and
charcoal should not exceed $3 in cost.
The addition of cadmium to soft
solder composed of tin and lead, towers
its melting point and increases its
strength.
jOOgIc
TEteGRAPri CODES
MORSE. U3CO IN THE United States and Canada.
CONTINENTAL, USED in Europe and elsewhere.
PHILUPSUSEDINTME UNITED STATES F0R"PRE88"W0PK.
Daah'S don. Long daah'^ dots.
Space bwTwmert ehmerrfa t/'a hfter'l dot.
Spcife b«twverr /offers oT a uvrd =2dofa. .Parhd
Interi^l m apoced letters 'Sdots •.Co/on
Space bettveert worde 'Sdatm -^Smmicolon
LETTERS
MOR3e CONTINCNTAl.
A
^~— ""1! •
M : — --
jComma
? Interrogation —
\ Exclamation —
Fraction line
'tlyphen
'Apostrophe
£PoundSterlins
^Paragraph —
tfaScsoruHdtrOm
t )ParentHeae9 -
CI Brackets \
'*^aotofioni?>or*J
M
N
O- -
P
a
R —
s---
T —
U
w
X
Y
Z •
&
^NUME
MiN. Minute.
MseR. Messenger
MsK Mistake.
No. Number.
NTO-NottHftg.
N>M.Nomore.
QK. All right
Ofs. Office.
Opr. OperotOK
PUNCTUATION, ETC.
Morse Continentm.
Phiujps
.Period
■.Colon --
'.—Colon doeh — - — - — - -
;S»mieolon
,Commo
? Interrogation —
! Exclamation — — — -
Fractiahline
-Dash \ r
-Hyphen \
tPoundStmriing 1
/ShU/ingmark y"
S Dollar mark - - - - — - -'
Capitalized letter-- '
Colon fbllowed by) ,
quotaflon .: '* ) .
c Cents
.Det^mal point — — ----■;—
<! Paragraph — — — ^
Italics or underline--^ -—
[ i Parentheses --
Z'iBrackats
''Quotation morka--^— ^— -
— — —~ |a quotation
Abbreviations in Common Use
Sib. Signature. Co Company. Tw. To-morreiv.
Pd. Paid. D.ti.Deadh^d TeM. Telegram.
Qk. Quick. Ex. Express. Tkt. Ticket
6&A&*e belter address. EaT. Freight Re. Receive.
Bn. Been. Fr. From. Ml. Mail.
■Bat. Battery. GA. Go Ahead. Lat. Latitude.
BBL.Barr^. P.O. Post Of/ke. Dee. Degree.
Col. Collect R.PT. Repeat An. Answer
■Ch. Check
HaR9. Headquarters. Exa. Extra.
ooglc
How to Make a Cruiang Caiiamaran
A launch is much safer than a sail*
ing boat, yet there is not the real sport
to be derived from it as in sailing.
Herein is given a description of a sail-
ing catamaran especially adapted for
those who desire to sail and have a
safe craft. The main part of the craft
is made from two boats or pontoons
with watertight tops, bottoms and
sides and fixed at a certain distance
apart with a platform on top for the
passengers. Such a craft cannot be
capsized easily, and, as the pontoons
are watertight, it will weather almost
any rough water. If the craft is in-
tended for rough waters, care must be
taken to make the platform pliable yet
stiff and as narrow as convenient to
take care of the rocking movements.
This catamaran has been designed to
simplify the construction, and, if a
larger size than the dimensions shown
in Fig. 1 is desired, the pontoons may
be made longer by using two boards
end to end and putting battens on the
inside over the joint. Each pontoon
is made of two boards 1 in. thick, 14 in.
wide and 16 ft. long, dressed and cut
to the shape shown in Fig. 8. Spread-
ers are cut from 2-in. planks, 10 in.
wide and 12 in. long, and placed 6 ft.
apart between the board sides and fast-
ened with screws. White lead should
be put in the joints before turning in
the screws. Cut the ends of the boards
so they will fit perfectly and make
pointed ends to the pontoons as showd
Turn this shell upside down and lay
a board ^ in. thick, 13 in. wide and IC
ft long on the edges of the sides, mark
Csmplcled But
on the under side the outside line of
the shell and cut to shape roughly. See
that the spreaders and sides fit true all
over, then put white lead on the joint
and nail with 1%-in. finishing nails as
close as possible without weakening
the wood. Slightly stagger the nails
in the sides, the 1-in. side boards will
allow (or this, trim off the sides, turn
the box over and paint the joints and
^ \ -^ =—
DHalli of the
in Fig. 3, and fit in a wedge shaped
piece; white lead the joints and fasten
well with screws.
ends of the spreaders, ^ving them two
or three coats and let them dry.
Try each compartment for leaks by
hyGOOgIC
turning water in them one at a time.
Bore a %-in. hole through each
spreader in the center and through the
i?«"
^ ^
%,i.\% oRAcnera
/
POitToon (
CninpiM* ud Rudder Daulli
bottom board as shown. The top
board, which is V4-in. thick, IS in. wide
and 16 ft. long, is put on the same as
the bottom.
After finishing both pontoons in this
way ptaee them parallel. A block of
wood is fastened on top of each pon-
toon and exactly over each spreader on
which to bolt the crosspieces as shown
in Fig. 4. Each block is cut to the
shape and with the dimensions shown
in Fig, 6.
The crosspieces are made from hick-
ory or ash and each piece is 8^ in.
thick, 5 in. wide and 6^4 ft. long. Bore
a %-in. hole 3 in. from each end
through the 5-in. way of the wood.
Take maple flooring % in. thick, 6 in.
wide, 74^ in. long and fasten with
large screws and washers to the cross-
pieces and put battens across every 18
in. Turn the flooring and crosspieces
upside down and fasten to the pon-
toons with long %-in. bolts put
through the spreaders. Put a washer
on the head of each bolt and run them
through from the under side. Place a
thick rubber washer under and on top
of each crosspiece at the ends as shown
in Fig. 4. This wilt make a rigid yet
flexible joint for rough waters. The
flooring being placed on the under side
of the crosspieces makes it possible to
get the sail boom very low. The sides
put on and well fastened will greatly
assist in stiffening the platform and
help it to stand the racking strains.
These sides will also keep the water
and spray out and much more so if a
12-in. dash is put on in front on top
of the crosspiece.
The rudders are made as shown in
Fig. 6, by using an iron rod % in. in
diameter and 2 ft. long for the bearing
of each. This rod is split with a hack-
saw for 7 in. of its length and a sheet
metal plate 3/32 in. thick, 6 in. wide,
and 12 in. long inserted and riveted in
the split. This will allow % in. of the
iron rod to project from the bottom
edge of the metal through which a hole
is drilled for a cotter pin. The bottom
bracket is made from stake iron bent in
the shape of a U as shown, the rudder
bearing passing through a hole drilled
in the upper leg and resting on the
lower. Slip the top bracket on and
then bend the top end of the bearing
rod at an angle as shown in both Figs.
6 and 7. Connect the two bent ends
with a crosspiece which has a hole
drilled in its center to fasten a rope as
shown in Fig. 1.
Attach the mast to the front cross*
piece, also bowsprit, bracing them both
to the pontoons. A set of sails having
about 300 sq. ft. of area will be about
right for racing. Two sails, main and
fore, of about 175 to 800 sq. ft will be
sufficient for cruising, — Contributed
by J. Appleton, Des Momes, Iowa.
Rough alligator finished photograph
mounts will not receive a good impres-
sion from a die. If a carbon pap«r ts
placed on the mounts before making
the impression, a good dear imprint
will be the result.
cbyGOOgIC
How to Attach a Sail to a Bicycle
This attactiment was constructed for
use on a bicycle to be ridden on the
well packed sands of a beach, but it
could be used on a smooth, level road
as well. The illustration shows the
Removing Iodine Stains
A good way to chemically remove
iodine stains from the hands or linen is
to wash the stains in a strong solution
of hyposulphite of sodium, known as
"hypo," which is procurable at any
Blcrcla SaiUiiE e
main frame to consist of two boards,
each about 16 ft. long, bent in the
shape of a boat, to give plenty of room
for turning the front wheel. On this
main frame is built up a triangular
mast, to carry the mainsail and jib,
having a combined area of about 40
sq. ft. The frame is fastened to the
bicycle by numerous pieces of rope.
Sailing on a bicycle is very much
different from sailing in a boat, for the
bicycle leans up against the wind, in-
stead of heeling over with it as the
boat. It takes some time to learn the
supporting power of the wind, and the
angle at which one must ride makes it
appear that a fall is almost sure to re-
sult. A turn must be made by turning
out of the wind, instead of, as in ordi-
nary sailing, into it ; the boom support-
ing the bottom of the mainsail is then
swung over to the opposite tack, when
one is traveling at a good speed.
photographic-supply dealer's or drug
store.
There is no danger of using too
strong a solution, but the best results
are obtained with a mixture of 1 oz.
of hypo to 8 oz. of water.
Drying Photograph Prints without
Curling
Having made some photograph
prints at one time that I wanted to
dry without the edges curling, I took
an ordinary tin can and a strip of clean
cotton cloth, as wide as the can was
long, and wound it one turn around
the can and then placed the prints, one
after the other, while they were damp,
on the cloth, face downward, and pro-
ceeded to roll the cloth and prints quite
iv^jOOglc
close on the can. I then pinned the end
_ of the cloth to keep it from unwinding
and set the whole in a draft for drying.
The curvature of the can just about
Rollinc Up the Piint*
counteracted the tendency of the coat-
ing on the paper to make the prints
curl and when they were thoroughly
dried and removed they remained nice
and flat.— Contributed by W. H. Ep-
pens, Chicago.
Piercing Glass Plates with a Spark Coil
Anyone possessing a 1-in. induction
coil and a 1-qt. Leyden jar can easily
perform the interesting experiment of
piercing glass plates. Connect the
Leyden jar to the induction coil as
shown in the diagram. A discharger is
now construtted of very dry wood and
boiled in paraffine for about 15 min-
utes. The main part of the discharger,
A B, is a piece of wood about 6 in, long
and to the middle of it is fastened a
wood handle by means of one or two
wood screws. A binding-post is fast-
ened to each end of the main piece or
at A and E as shown in the diagram.
in an arc of a circle and attached one
to each binding-post.
A plate of glass, G, is now placed
between the two brass balls and the
coil set in action. The plate will soon
be pierced by the spark. Lai^er coils
will pierce heavier glass plates. — Con-
tributed by I. Wolff, Brooklyn, N. Y.
A Home-Made Still
Remove the metal end of an old elec-
tric light globe. This can be done by
soaking a piece of twine in alcohol and
tying it around the globe at the place
the break is to be made. Light the
string and after it is burned off, turn
cold water on the globe. The result
will be a smooth break where the string;
Two stiff brass wires of No. 14 gauge
and 6 in. long, with a small brass ball
attached to one end of each, are bent
Tha Conipl>te SdU
was placed. Purchase a piece of glass
tubing from your druggist and secure
a cork that will fit the opening in the
glass bulb. Bore a hole in the cork
the right size for the glass tube to fit
in tightly. If you cannot get a glass
tube with a bend in it, you will have
to make a bend, as shown in the illus-
tration, by heating the tube at the right
place over an alcohol lamp and allow-
ing the weight of the glass to make the
bend while it is hot.
Insert the short end of the tube in
the cork and place the other end in a
test tube that is placed in water as
shown. The globe may be fastened in
position by a wire passed through the
cork and tied to a ring stand. If you
do not have a ring- stand, suspend the
l:v v^JV^^VVli
'>'«"
globe by a wire from a hook that is
screwed into any convenient place.
A neat alcohol lamp may be made of
an old ink or muBcilage bottle, insert
a wick in a piece of the glass tubing
and put this through a hole bored in
a cork and the lamp is ready to bum
alcohol or kerosene. Alcohol is cleaner
to use as a fuel. Fill the globe about
two-thirds full of water or other liquid
and apply the heat below as shown.
The distilled liquid will collect in the
test tube. — Contributed by Clarence D.
Luther, Ironwood, Mich.
Old-Time Magic
Pf'«"'^g Forks on m Pin Head
Two, three and four common table
forks can be made to balance on a pin
head as follows: Procure an empty
bottle and insert
a cork in the
neck. Stick a
pin in the center
of this cork so
that the end will
be about 1% in,
above the top.
Procure another
cork about 1 in.
in diameter by
1^ in, long.
The forks are
now stuck into the latter cork at equal
distances apart, each having the same
angle from the cork. A long needle
with a good sharp point is run through
the cork with the forks and % in, of
the needle end allowed to project
through the lower end.
The point of the needle now may be
placed on the pin head. The forks will
balance and if given a slight push they
will appear to dance. Different angles
of the forks will produce various feats
of balancing, — Contributed by O. E.
Tronnes, Wilmette, III.
The Buttoned Cord
Cut a piece of heavy paper in the
shape shown in Fig. 1 and make two
cuts down the center and a slit as long
as the two cuts are wide at a point
about 1 in. below them. A string is
put through the slit, the long cuts and
back through the slit and then a but-
i
BcmovioK tb* SuiiiK
ton is fastened to each end. The small
slit should not be so large as the but-
tons. The trick is to remove the
string. The solution is quite simple.
Fold the paper in the middle and the
part between the long cuts will form
a loop. Bend this loop down and pass
it through the small slit. Turn the
paper around and it will appear as
shown in Fig. 2. One of the buttons
may now be drawn through and the
paper restored to its original shape.
Experiment with an Incandescent
Lamp
When rubbing briskly an ordinary
incandescent lamp on a piece of cloth
and at the same time
slightly revolving it,
a luminous effect is
produced similar to
an X-ray tube. The
room must be dark
and the lamp per-
fectly dry to obtain
good results. It ap-
pears that the inner
surface of the globe
becomes charged,
probably by induc-
tion, and will some-
times hold the fila-
ment as shown in
the sketch.— Contributed by E. W.
Davis, Chicago.
Digitized by VjOOQ IC
How to Make a Small Motor
The accompanying sketch shows
how to make a small motor to run on
a battery of three or four dry cells and
Detail! of Small Blccttk Hotor
with sufficient power to run mechan-
ical toys. The armature is constructed,
as shown in Figs. 1 and 2, by using a
common spool with 8 flat-headed
screws placed at equal distances apart
and in the middle of the spool. Each
screw is wound with No. 24 gauge iron
wire, as shown at A, Fig. 1. The com-
mutator is made from a thin piece of
copper, 1 in. in diameter and cut as
shown in Fig. 3, leaving 8 points, % in.
wide and Vg in. deep. The field is built
up by using 8 strips of tin, 12 in. long
and 2 in. wide, riveted together and
shaped as shown at B, Fig. 4. Field
magnets are constructed by using two
%-in. bolts, iy2 in. long. A circular
piece of cardboard is placed on each
end of the bolt, leaving space enough
for the bolt to pass through the field
B, and to receive a nut. Wind the re-
maining space between the cardboards
with 30 ft. of No. 23 double-wound
cotton-covered copper wire. A light
frame of wood is built around the mag-
nets, as shown at C, Fig. 4. Holes are
made in this frame to receive the axle
of the armature. Two strips of cop-
per, 14 '"■ wide and'3 in. long, are used
for the brushes. The armature is
placed in position in its bearings and
the brushes adjusted as shown in Fig.
4, one brush touching the shaft of the
armature outside of the frame, and
the other just touching the points of
the commutator, which is placed on the
shaft inside of the frame. Connect
the outside wire of one magnet to the
inside wire of the other, and the re-
maining ends, one to the batteries and
back to the brush that touches the
shaft, while the other is attached to
the brush touching the commutator.
In making the frame for the armature
bearings, care should be taken to get
the holes for the shaft centered, and
to see that the screws in the armature
pass each bolt in the magnets at equal
distances, which should be about % in.
Aluminum Polish
An emulsion of equal parts of rum
and olive oil can be used for clean-
ing aluminum, says Blacksmith and
Wheelwright. Potash lye, not too
strong, is also effective in brightening
aluminum, and benzol can be used for
the same purpose.
A good polish for aluminum consists
of a paste formed of emery and tallow,
the finish luster being obtained by
the use of rouge powder and oil of
turpentine.
Homemade Blowpipe
Procure a clay pipe, a cork and a
small glass or metal tube drawn to a
small opening in one end. Make a hole
in the cork just large enough to per-
mit the tube to pass through tightly so
no air can pass out except through the
hole in the tube. Put the tube in the
hole with the small opening at the top
A Pipe Blowpipe
or projecting end. Push the cork into
the bowl of the pipe and the blowpipe
is ready for use. — Contributed by
Wilbur Cryderman, Walkerton, Ont.
ly v^<v..'v_'Vl^_
Substitute Sink or Bathtub Stopper
Milk-bottle caps make good substi-
tutes for the regular rubber stoppers
in sinks and bathtubs. The water soon
destroys them, but as a new one
usually is had each day, they can be
used until a regular stopper is
obtained.
A good permanent stopper can be
made by cutting a hollow rubber re-
turn ball in half, using one part with
the concave side up. It will fit the
hole of any sink or bathtub. One ball
thus makes two stoppers at a cost of
about 5 cents.
Safety Tips on Chair Rockers
Some rocking chairs are so con-
structed that when the person occupy-
ing it gives a hard tilt backward, the
chair tips over or dangerously near it.
A rubber-tipped screw turned into the
under side of each rocker, near the
rear end, will prevent the chair from
tipping too far back.
wing is placed on the two nails in the
spool, and the spool placed on the nail
in the stick. Fig. 5, and the flier is ready
Homanudc Plying Macbina
for action. A quick pull on the string
will cause the wing to leave the nails
and soar upward for a hundred feet or
more. After a little experience in
twisting the wing the operator will
learn the proper shape to get the best
results.
Be very careful in making the tests
before the wings are turned to the
proper shape, as the direction of the
flier cannot be controlled and some one
might be injured by its flight.
How to Make a Toy Flier
While a great many people are look-
ing forward to the time when we shall
successfully travel through the air, we
all may study the problem of aerial
navigation by constructing for our-
selves a small flying machine as illus-
trated in this article.
A wing is made in the shape shown
in Fig. 1 by cutting it from the large
piece of an old tin can, after melting
the solder and removing the ends.
This wing is then given a twist so that
one end will be just opposite the other
and appear as shown in Fig. ?. Secure
a common spool and drive two nails
in one end, leaving at least ^ in. of
each nail projecting after the head has
been removed. Two holes are made
in the wing, exactly central, to fit on
these two nails. Another nail is driven
part way into the end of a stick. Fig.
4, and the remaining part is cut off so
the length will be that of the spool.
A string is used around the spool in
the same manner as on a top. The
How to Make an Ironing-Board
Stand
Secure some 1 by 3-in. boards, about
3 ft. long, and plane them smooth. Cut
the two pieces A and B 30 in. long
and make a notch in each of them,
about one-third of the way from one
end, 1 in. deep and 3 in. long. These
^ n|.i
Iron iog- Board Stand
notches are to receive the piece D,
which has a small block fastened to
its side to receive the end of the brace
C. The brace C is 36 in. long. The
izocbyClOOglC
upper ends of the pieces A, B and C
are foBteocd to a common ironing
board by using iron hinges as shown
in Fig. 1. Ab the piece D is fitted
loosely, it may be removed and the
brace, C, with the legs, A and B, fold-
ed np agaiDst the board. — Contributed
by Bert Kottinger, San Jose, Cal.
A Home-Made Electric Plus
A plug suitable for electric light
extenBion or to be used in experiment-
' may
be
made from an
old electric
globe. The glass
is removed with
all the old com-
position in the
brass receptacle,
caving only the wires. On the ends
of the wires, attach two small binding-
posts. Fill the brass with plaster of
paria, and in doing this keep the wires
separate and the binding-posts opposite
each other. Allow the plaster to pro-
ject about I in. above the brass, to
hold the binding-posts as shown. —
Contributed by Albert E. Welch, New
York. ^
How to Make ao Eloctric Rre
Alarm
On each end of a block of wood, 1
in. square and 1^ in. long, fasten a
strip of brass i by 3 in., bent in the
shape as shown in the sketch at A,
Fig. 1. These strips should have suf-
ficient bend to allow the points to
press tightly together. A piece of bees-
wax, W, is inserted between the points
of the brass strips to keep tbem apart
and to form the insulation. A binding-
poet, B, is attached to each brass strip
on ^e ends of the Mock of wood. The
device is fastened to the wall or ceil-
ing, and wire connections made to the
batteries and bells as shown in the dia-
gram. Fig, 2. When the room becomes
a little overheated the wax will melt
and cause the brass strips to spring
together, which will form the circuit
and make the bell ring. Each room
in the house may be connected with one
of these devices, and all on one circuit
with one bell.
Hom^Made Boy's Car
The accompanjdng cut shows how a
boy may construct his own auto car.
The car consists of parts used from a
boy's wagon and some old bicycle parts.
The propelling device is made by using
the hanger, with all its parts, from a
bicycle. A part of the bicycle frame is
Boyt' noo^Mad* Auto
left attached to the hanger and is fast-
ened to the main board of the car by
blocks of wood as shown. The chain of
a bicycle is used to connect the crank
hanger sprocket to a small sprocket
fastened in the middle of the rear axle
of the car. The front axle is fastened
to a square block of wood, which is
pivoted to the main board. Ropes are
attached to the front axle and to the
back part of the main board to be ttsed
with the feet in steering the car. To
propel the auto, turn the cranks
by taking hold of the bicycle pedals. —
Contributed by Anders Neilaen, Oak-
land, CaL
d by Google
Photographs in Relief Easily Made
Relief photographs, although appar- with the film side up in the usual man-
ently difficult to produce, can be made ner. Put in the paper and print. This
by any amateur photographer. The will require a greater length of time
negative is made in the usual way and, than with the ordinary negative on ac-
Rtproduced ftom ■ Relief PholOEiaph
when ready for printing, a positive or
transparency is made from it in the
same manner as a lantern slide or win-
dow transparency, says the Sketch,
London. Use the same size plate as
the negative for the transparency. To
make the print in relief place the posi-
tive in the frame first with the film side
out and the negative on top of this
count of printing through double glass
and films. In using printtng-out
papers care should be taken to place
the printing frame in the same position
and angle after each examination.
CPIace the transmitting instruments
of a wireless outfit as close together as
possible.
ioog Ic
How to Make a Wireless Telephone
A noted French scientist, Bour-
bouze, was able to keep up communi'
cation with the outside during the
DiuUi of Wlrcliu Phone Intullatloa
siege of Paris by making practical ap-
plication of the earth currents. The
distance covered is said to have been
about 30 miles. Another scientist was
able to telephone through the earth
without the aid of wires. Nothing,
however, has been made public as to
how this was accomplished.
It is my object to unveil the mystery
and to render this field accessible to
others, at least to a certain degree, for
I have by no means completed my re-
searches in this particular work.
In order to establish a wireless com-
munication between two points we
need first of all a hole or well in the
ground at each point. In my experi-
ments I was unable to get a deep well,
but the instruments worked fine for a
distance of 300 ft., using wells about
26 ft, deep. As in ordinary telephone
lines, we require a transmitter and re-
ceiver at each point. These must be
of the long-distance type. If a hole
is dug or a well is found suitable for
the purpose, a copper wire is hung in
the opening, allowing the end to touch
the bottom. To make the proper con-
tact an oval or round — but not pointed
— copper plate is attached to the end
of the wire. If a well is used, it is
necessary to have a waterproof cable
for the part running through the wa-
ter. The top end is attached tn the
telephone transmitter and receiver, as
in the ordinary telephone, to the bat-
teries and to a zinc plate, which is to
be buried in the earth a few feet away
from the well or hole, and not more
than 1 ft. under the surface, A battery
of four'dry cells is used at each station.
Both stations are connected in the
same way, as shown in the sketch.
This makes it possible tor neighbors
to use their wells as a means of com-
munication with each other. — Contrib-
uted by A. E, Joerin.
Eyelets for Belts
If eyelets, such as used in shoes, are
put into the lace holes of a belt, the
belt will last much longer. The eye-
lets, which may be taken from old
shoes, will prevent the lace from tear-
ing out. I have used this method on
several kinds of belts, always with en-
tire satisfaction. — Contributed by Irl
R. Hicks.
How to Make a Life Buoy
Any boy may be able to make, for
himself or friends, a life buoy for
emergency use in a rowboat or for
learning to
swim. Pur-
chase 1% yd.
of 30-in. can-
vas and cut
two circular
pieces, 30 in. in
diameter, also
cutting a
round hole in
the center of tnem, 14 in. in diameter.
These two pieces are sewed together
on the outer and inner edges, leaving
a space, about 12 in. in length, open on
the outer seam. Secure some of the
cork used in packing Malaga grapes
from a grocery or confectionery store
and pack it into the pocket formed be-
tween the seams through the hole left
in the outer edge. When packed full
and tight sew up the remaining space
in the seam. Paint the outside surface
and the seams well with white paint to
make it water-tight. — Contributed by
Will Hare. Petrolea. Ont.
d by Google
A Home-Made MlcroKope
A great man; times we would like
to eiamine a seed, an ineeet or the
of wood bnt have no
'. A ?ery good micro-
^ scope may be made
iout of the bulb of a
broken thermometer.
Empty out the mer-
cury, which is easily
done by holding tbe
9 bulb with the stem
down over a lamp or candle. A epirit
lamp is the best, as it makes no emoke
and gives a steady heat. Warm the
bulb slowly and the mercury will be
expelled and may be caught in a tea
cup. Do not heat too fast, or the pres-
sure of the mercury vapor may burst
the glass bulb, cautions the Woodwork-
ers' Review. To fill the bulb with
water warm it and immerse the end of
the tube in the water. Then allow it to
cool and the pressure of the air will
force the water into the bulb. Then
boil the water gently, holding the bulb
with the stem up; this will drive out
all the air, and by turning the stem or
tube down and placing the end in
water the bulb will be completely filled.
It ie surprising how much can be seen
by means of such a simple apparatus.
clock and a small metal strip attached,
as shown at B. An insulated connec-
tion is fastened on the clapper of the
hell, as shown at A. The arm holding
the clapper must be bent to have the
point A remain as close to the strip B
as possible without touching it The
connection to the battery is made as
shown. When the time set for the
alarm comes the clapper will be moved
far enough to make the contact. In
the course of a minute the catch on the
clapper arm will be released and the
clapper will return to its former place.
A Novel Electric Time Alarm
All time alarms run by clockwork
must be wound and set each time. The
accompanying diagram shows how to
make the connection that will ring a
bell by electric current at the time set
without winding the alarm. The bell
is removed from an ordinary alarm
How to Make a Pfaonocraph Record
The core, Fig. 1, consists of six
strips of wood beveled so as to form
six equal sides. The strips are 3 ft
long and 3 in. wide on the outside
bevel and are nailed to three blocks
made hexagon, as shown in Fig. 2, from
j-in. material One block is placed at
each end and one in the middle. A
j-in. metal pin is driven in a hole bored
in the center of each end block. The
bottoms of the pasteboard cases, used
to hold the wax records, are either
tacked or glued to this hexagon core,
OS ehown in Fig. 3, with Vieir open
ends outward.
Two circular pieces are made of such
a diameter as will cover the width of
the core and the cases attached, and
extend about ^ in. each side. A i-in.
hole is bored in the center of fliese
pieces to receive the pins placed in the
ioogic
endfl of the core. Fig. 1. These will
form the endB of the cabinet, and when
placed, one on each end of the core,
heavy building paper or sheet metal is
tacked around them for a covering, as
shown in Fig. 4. A small glass door
ia made, a Uttle wider than one row
of cases, and fitted in one side of the
covering. The outside may be painted
or decorated in any way to suit the
builder.
Experiment! wfth a Mirror
Aflk your friend if he can decipher
the sign m illustrated in the sketch.
Fig. 1, which you pretend to have read
over the ehop of an Armenian shoe-
maker.
write anything but zigzags, says Sci-
entific American.
Another experiment may be made by
taking an egg shell and trimming it
with the scissors so as to reduce it to a
half shell. In the hollow liottom rou^-
ly draw with your pencil a cross with
pointed enda Bore a hole, about the
size of a pea, in the center of the cross.
Place yourself so as to face a window,
the light falling upon your face, not
upon the mirror which you hold in
one hand. Close one eye. Place the
shell between the other eye and the
mirror, at a distance of 2 or 3 in.
from either, the concavity facing the
mirror as shown in Fig, 4, Through
the hole in the shell look at the mirror
as if it were some distant object. While
you are eo doing the concave shell
will suddenly assume a strongly con-
vex appearance. To destroy the illu-
sion it becomes necessary either to
open both eyes or to withdraw the shell
away from the mirror. The nearer the
shell to the mirror and the farther the
eye from the shell the more readily
comes the illusion.
He will probably tell you that he is
not conversant with Oriental lan-
guages. He will net believe it if you
tell him it is written in good English,
but place a frameless mirror perpen-
dicularly on the mysterious script,
right across the quotation marks, and
it will appear as shown in Fig. 2. We
understand at once that the reflected
image is the faithful copy of the writ-
ten half.
With the aid of a few booke arrange
the mirror and the paper as shown in
Fig. 3 and ask your
friend to write anything
he chooses, with the con-
dition that he shall see
his hand and read the
script in the mirror only.
The writer will probably
go no farther than the
first letter. His hand
seems to be struck with
paralysis and unable to
Miniature Electric
After several years' researcli there
has been produced a miniature electric
bulb that is a great improvement and
a decided departure from the old kind
which used a carbon filament. A me-
tallic filament prepared by a secret
chemical process and suspended in the
bulb in an S-shape is used instead of
the old straight span. The voltage is
gauged by the length of the span. The
brilliancy of the filament excels any-
thing of its length in any voltage.
d by Google
Of conree, the filament ia not made
of Uie precioQS metal, radium j that
simply being the trade name. How-
ever, the filament is composed of cer-
tain metals from which radium is ex-
tracted.
The advantages of the new bulb are
manifold. It gives iive times the light
on the same voltage and uses one-half
of the current consumed by the old
carbon filament. One of the disadven-
tagee of the old style bulb was the glass
tip. which made a shadow. This has
been obviated in the radium bulb by
biowlog the tip on the side, as shown
in the eketch, so as to produce no
shadow.
Hvw to Make a Magazlae Clamp
Hub device as shown in the illustra-
tion can be used
to serve as a clamp. The piece, A, may
be slotted wide enough to insert two
or three magazines and made long
enough to hold several newspapers.
A color resembling pewter may he
given to brass by boiling the castings in
a cream of tartar solution containing a
Bmall amount of chloride of tin.
DrownlDC a Dog's Bark with W.ater
The owner of two dogs was very
much annoyed by the dogs barking at
night. It began to
be such a nuisance
that the throwing
of old shoes and
empty bottles did
not stop the noise.
'-^^ The only thing that
seemed to put a
stop to it was water.
lor Dof '■ BMk
Being on the third floor of the house,
and a little too far from the kennel to
throw the water effectively, a mechan-
ism was arranged as shown in the
sketch.
A faucet for the garden hose was
directly below the window. An 8-in.
wooden grooved pulley was slipped
over an axle which had one end fitted
on the handle of the faucet. A rope
was extended to the window on the
third floor and passed around the pul-
ley several times, thence over an iron
pulley fastened to the wall of the house
and a weight was attached to its end.
By pulling the rope up at the window
the large pulley would turn on the
water and when released the weight
would shut off the flow. The nozzle
was fastened so as to direct the stream
where it would do the most good. —
Contributed by A. S. Pennoyer, Berke-
ley, CaL
The average cost of supplying 1,000,-
000 gal. of water, based on the report
of twenty-two cities, is $93. This sum
includes operating expenses and inter*
est on bonds.
d by Google
How to Make a Wcmdergraph
By F. E. TUCK
An exceedingly interesting^ machine
is the so-called wondergraph. It is
easy and cheap to make and will fur-
nish both entertainment and instruc-
tion for young and old. It is a draw-
ing machine, and the variety of designs
it will produce, all symmetrical and
ornamental and some wonderfully
c implicated, is almost without limit.
hig. I represents diagrammaticaily the
machine shown in the sketch. This is
the easiest to make and gives fully as
great a variety of results as any other.
To a piece of wide board or a dis-
carded box bottom, three grooved cir-
cular disks are fastened with screws so
as to revolve freely about the centers.
They may be sawed from pieces of thin
board or, better still, three of the
plaques so generally used in burnt-
wood work may be bought for about 15
cents. Use the largest one for the re-
volving table T. G is the guide wheel
and D the driver with attached handle.
Secure a piece of a 36-in. ruler, which
can be obtained from any furniture
dealer, and nail a small block, about 1
in. thick, to one end and drill a hole
through both the ruler and the block,
and pivot them by means of a wooden
peg to the face of the guide wheel. A
fountain pen, or pencil, is placed at P
and held securely by rubber bands in
part way into its upper edge. Any one
of these nails may be used to hold the
other end of the ruler in position, as
shown in the sketch. If the wheels are
not true, a belt tightener, B, may be
attached and held against the belt by a
spring or rubber band.
After the apparatus is adjusted so it
will run smoothly, fasten a piece of
drawing paper to the table with a cou-
ple of thumb tacks, adjust the pen
so that it rests lightly on the paper
and turn the drive wheel. The results
will be surprising and delightful. The
accompanying designs were made with
a very crude combination of pulleys
and belts, such as described.
The machine should have a speed
that will cause the pen to move over
the paper at the same rate as in ordi-
nary writing. The ink should flow
freely from the pen as it passes over
the paper. A very fine pen may be
necessary to prevent the lines from
running together.
The dimensions of the wondergraph
may vary. The larger designs in the
illustration were made on a table, 8 in.
in diameter, which was driven by a
guide wheel, 6 in. in diameter. The
size of the driver has no effect on the
form or dimensions of the design, but
a change in almost any other part of
As EuUy Hade VIoaittgttpb
a grooved block attached to the ruler.
A strip of wood, MN, is fastened to
one end of the board. This strip is
made just high enough to keep the
ruler parallel with the face of the table,
and a row of small nails are driven
the machine has a marked effect on the
results obtained. If the penholder is
made so that it may be fastened at va-
rious positions along the ruler, and the
guide wheel has holes drilled through it
at different distances from the center
V V^JV^^V-'Vl'
■a"
to hold the peg attaching the ruler,
these two adjustments, together with
the one for changing the other end of
the ruler by the rows of nails, will
make a very great number of combina-
tions possible. Even a slight change
will greatly modify a figure or give an
entirely new one. Designs may be
changed by simply twisting the belt,
thus reversiDg the direction of the table.
If an arm be fastened to the ruler at
right angles to it, containing three or
four grooves to hold the pen, still dif-
ferent figures will be obtained. A novel
effect is made by fastening two pens
to this arm at the same time, one filled
with red ink and the other with black
ink. The designs will be quite dissim-
ilar and may be one traced over the
other or one within the other accord-
ing to the relative position of the pens.
Again change the size of the guide
wheel and note the effect. If the
diameter of the table is a multiple of
that of the guide wheel, a complete fig-
ure of few lobee will result as shown
by the one design in the lower right-
himd comer of the illustration. With
a very flexible belt tightener an ellip-
tical guide wheel may be used. The
axis may be taken at one of the foci
or at the intersection of the axis of the
elHpse.
The most complicated adjustment is
to mount the table on the face of an-
other disc, table and disc revolving in
opposite directions. It will go through
a long series of changes without com-
pleting any figure and then will repeat
itself. The diameters may be made to
vary from the fraction of a& inch to as
large a diameter as the size of the table
permits. The designs given here were
originally traced on drawing paper 6 in.
square.
Bemarkable and complex as are the
curves produced in this manner, yet
they are but the results obtained by
combining simultaneously two simple
motions as may be shown in the fol-
lowing manner: Hold the table sta-
tionary and the pen will trace an oval.
But if the guide wheel is secured in a
fixed position and the table is revolved
a circle will be the result.
So much for the machine shown in
jOOgIc
8pedin«n Scrolla Mack on Uw Womlargniih
Fig. I. The number of the modifica-
tioiiB of this Bimple contrivance is lim-
ited only by the ingenuity of the maker.
Fig. 2 speaks for itself. One end of
the ruler is faBtcned in such & way as
to have a to-and-fro motion over the
arc of a circle and the speed of the
table is geared down by the addition of
another wheel with a small pulley at-
tached. This will give many new de-
signs. In Fig. 3 the end of the ruler
ifi held by a rubber band against the
edge of a thin triangular piece of wood
which is attached to the face of the
fourth wheel. By substituting other
{)lain figures for the triangle, or out-
ining them with small finishing naiU,
many curious modifications such as are
shown by the two smallest designs in
the illustrations may be obtained. It
is neceasary, if Bymmetrical designs are
to be made, that the fourth wheel and
the guide wheel have the same diameter.
In Fig. 4, V and W are vertical
wheels which may be successfully con-
nected with the double horizontal drive
wheel if the pulley between the two has
a wide fiange and is set at the proper
angle. A long strip of paper is given
a uniform rectilinear motion as the
string attached to it is wound around
the axle, V. The pen, P, has a motion
compounded of two simultaneous mo-
tions at right angles to each other given
by the two guide wheels. Designs such
as shown as a border at the top and
bottom of the illustration are obtained
in this way. If the vertical wheels are
discoonected and the paper fastened in
place the well known Lissajou's curves
are obtained. These curves may be,
traced by various methods, but this ar-
rangement is about the simplest of them
all. The design in this case will change
as the ratio of the diameters of the two
guide wheels are changed.
These are only a few of the many
adjustmentB that are possible. Fre-
quently some new device wiil give a
figure which is apparently like one ob-
ly V^JV_'V_'V1I
■"a"
tained in spme other way, yet, if you
will watch the way in which the two are
commeDced and developed into the com-
plete design you will find they are
fonned quite differently.
The average boy will take delight in
making a wondergraph and in invit-
ing the many improvements that are
sure to suggest themeelves to him. At
all events it will not be time thrown
away, for, simple aa the contrivance is,
it will arouse latent energies which may
develop along more useful lines in ma-
tarer years.
ttow to Moke a 110-Volt Traiu-
(ormer
Secnre two magnets from a telephone
bell, or a set of magnets wound for
S,000 ohms. Mount them on a bar of
braes or steel aa shown in Fig. 1. Get
an empty cocoa can and clean it good
to remove all particles of cocoa and
punch five holes in the cover, aa shown
in Fig. 2. The mifidle hole is to be
used to fasten the cuver to the brass
bar with a bolt. The other four holes
are for the wire termi-ialB. A piece of
robber tubing must be placed over the
wire terminals before inserting them
in the holes. Fill the can with crude
oil, or with any kind of oil except kero-
Parta of th* Tnuisformar
eene oil, and immerse the magnets in it
by fitting the cover on tight (Fig.- 3).
Tlie connections are made as shown in
the diagram. Fig. 5. This device may
be used on 110-volt current for electro-
plating and small battery lamps, pro-
vided the magnets are wound with wire
no larger than No. 40. — Contributed by
C. M. Bubsan, Muskogee, Okla.
Experimeiit with s Vacuam
Take any kitchen utensil naed for
frying purposes — an ordinary skillet,
or spider, works best — having a smooth
Exparlmantal Apparatu*
inner bottom surface, and turn in water
to the depth of ^ in. Cut a piece of
cardboard circular to fit the bottom of
the spider and make a hole in the cen-
ter 4 in. in diameter. The bole will
need to correspond to the size of the
can used. It should be 1 in. less in
diameter than that of the can. Place
this cardboard in the bottom of the
spider under the water. A 2-qt. syrup
can or pail renders the beat demonstra-
tion, although good results may be ob-
tained from the use of an ordinary to-
mato can. The edge of the can must
have no indentations, so it will fit per-
fectly tight all around on the card-
board. Place the can bottom side up
and evenly over the hole in the card-
board. Put a puiBcient weight on the
can to prevent it moving on the card-
board, but not too heavy, say, 1 lb.
Place the spider with its adjusted
contents upon a heated stove. Soon
the inverted can will begin to agitate.
When this agitation finally ceases re-
move the apider from the stove, being
careful not to move the can, and if the
quickest results are desired, apply snow,
ice or cold water to the surface of the
can until the sides begin to fiatten.
The spider with its entire conteoti
d by Google
may now be lifted by taking hold of
the can. When the vacuum is com-
!)lete the sides of the can will sudden*
y collapse, and Eometimes, with a con-
siderable report, jump from the spider.
The cause of the foregoing phenom-
enon is that the circular hole in the
cardboard admits direct heat from the
surface of the spider. This heat causes
the air in the can to expand, which is
allowed to escape by agitation, the
water and the cardboard acting as a
valve to prevent its re-entrance. When
the enclosed air is expelled by the heat
and a vacuum is formed by the cooling,
the above results are obtained as de-
scribed. — Contributed by N, J. Mc-
Lean.
taken as shown, and the expOBure made
by the pressure of the teeth on the bulb
while held between them.
in a rather strong light. The camera
is focused, shutter set and plate holder
made ready. The focusing cloth is
thrown over your head, the positioa
HaDd Car Made of Pipe and Ftttlngf
Although apparently complicated,
the constniction of tbe miniature hand
car shown in the accompanying illus-
Tbe Making of Freak Pbotosrapbs
An esperiment that is interesting
and one that can be varied at the pleas-
ure of the operator, is the taking of his
own picture. The effect secured, as
shown in the accompanying sketch, re-
produced in pen and ink from a pho-
tograph, is that made by the photog-
rapher himself. At first it seems im-
possible to secure such a picture, but
when told that a mirror was used the
process is then known to be a simple
one.
The mirror is set in such a way as
to allow the camera and operator, when
standing directly in front of it, to be
tration is very simple. With a few ex-
ceptions all the parts are short lengths
of pipe and oommoQ tees, elbows and
nipples.
The wheels were manufactured for
use un a baby carriage. The sprocket
wheel and chain were taken from a
discarded bicycle, which was also drawn
upon for the cork handle used on the
steering lever. The floor is made of
1-in. white pine, 14 in. wide and 48 in.
long, to which are bolted ordinary
flanges to hold the framing and the
propelling and steering apparatus to-
gether. The axles were made from |-
in. shafting. The fifth wheel consists
of two small flanges working on the
.face surfaces. These flanges and the
auxiliary steering rod are connected to
the axles by means of holes stamped in
the piece of sheet iron which encases
tbe axle. The shebt iron was first prop-
erly stamped and then bent around the
axle. I'he levers for propelling and
steering the car work in f ulcrums made
d by Google
foi 11B& in lerer valTes. The turned
wooden handles by which these levers
are operated were inserted through
holes drilled in the connecting tees.
The working joint for the steering and
hand levers consistB of i ^ by f by |-
in. tee, a ^ by |-in. crosi and a piece of
rod threaded on both eniJs and screwed
into the tee. The cross is reamed and,
with the rod, fonnB a bearing.
The operation of this little hand car
is very similar in principle to that of
the ordinary tricycle, says Domestic
Engineering. The machine can be pro-
pelled as fast as a boy can run. It re-
sponds readily to the slightest move-
ment of the steering lever.
to the front rail and also connected ta
the back post by a bearer, 4 in. deep by
1^ in. thick. This bearer is tenoned
to the back post
Fig. 3 showB a sectional view of the
bearer joint to front leg, and also tho
half-round seat battens resting on the
bearer, also showing them with their
edges planed. It is advisable to have
a space between the edges of .each bat-
ten, say about ^ in., to allow rai=>
water to drain. The ends of the seat
battens are pared away to fit the trans-
verse rails neatly as shown in Fig. 2.
The struts for the post range in diam-
eter from 1^ in. to 2 in. The ends of
the struts are pared to fit the posts and
d DaUlli of Oonatruction
How to Make a Rustic Seat
The rustic settee illustrated in Fig. 1
may be made € ft. long, which will ac-
commodate four average-sized persons.
It is not advisable to exceed this length,
as then it would look out of proportion,
says the Wood-Worker, Select the ma-
terial for the posts, and for preference
branches thct are slightly curved, as
shown in the sketch. The front posts
are about 3i in, in diameter by 2 ft. 4
in. long. The back posts are 3 ft. 4 in.
high, while the center post is 3 ft. 8 in.
in height. The longitudinal and trans-
verse rails are about 3 in, in diameter
and their ends are pared away to fit
the post to which they are connected
by 1-in. diameter dowels. This method
is shown in Fig. 4. The dowel holes
are bored at a distance of 1 ft, 2^ in,
up from the lower ends of posts. The
front center leg is partially halved
rails, and are then secured with two
or three brads at each end.
Select curved piecee, about 2} in. in
diameter, for the arm rests and back
rails; while the diagonally placed fill-
ing may be about 2 in. in diameter.
Start with the shortest lengths, cut-
ting them longer than required, as tha
paring necessary to fit them to the rails
and poets shortens them a little. Brad
them in position as they are fitted, and
try to arrange them at regular inter-
vida.
Motorists that suffer with cold hands
while driving their cars may have relief
by using a steering wheel that is pro-
vided with electric heat. An English
invention describes a steering wheel
with a core that carries two electrically
heated coils insulated one from the
other and from the outer rim.
d by Google
Homemade Workbench
Bjr C. E. McKINNEY. Jr.
The first appliance necessary for the
>oy's workshop is a workbench. The
average boy that desires to construct
his own apparatus as much as possible
can make the bench as described here-
in. Four pieces of 3 by 4-in, pine are
cut 33 in, long for the legs, and a tenon
made on each end of them, 14 in, thick,
Sy^ in, wide and l^/^ in, long, as shown
shown at HH. Four % by 6-ia. bolts
arc placed in the holes bored, and the
joints ^re drawn together as shown at
J. The ends of the two braces must
be sawed off perfectly square to make
the supports stand up straight.
In making this part of the bench be
sure to have the joints fit closely and
to draw the bolts up tight on the
at A and B, Fig. 1. The crosspieces
at the top a'nd bottom of the legs are
made from the same material -and cut
20 in, long. A mortise is made 1^/4 in,
from each end of these pieces and in
the narrow edge of them, as shown at
C and D, Fig. i. The corners are then
cut sloping from the edge of the leg
out and to the middle of the piece, as
shown: When each pair of legs are
fitted 10 a pair of crosspieces they will
form the two supports for the bench.
These supports are held together and
braced with two braces or connecting
pieces of 2 by 4-in, pine, 24 in. long.
The joints are made between the ends
of these pieces and the legs by boring
a hole through each leg and into the
center of each end of the braces to a
depth of 4 in., as shown at J, Fig, 3.
On the back side of the braces bore
holes, intersecting the other holes, for
a place to in.sert the nut of a bolt, as
stretchers. There is nothing quite so
annoying as to have the bench support
sway while work is being done on its
top. It would be well to add a cross
brace on the back side to prevent any
rocking while planing boards, if the
bench is to be used for large work.
The main top board M, Fig. 3, may
be either made from one piece of 3 by
12-in, plank, 3% ft. long, or made up
of 14 strips of maple, % in. thick by 2
in. wide and 3*^ ft. long, set on edge,
each strip glued and screwed to its
neighbor. When building up a top
like this be careful to put the strips to-
gether with the grain running in the
same direction so the top may be
planed smooth. The back board N is
the same length as the main top board
M, 8^ in, wide and only % in. thick,
which is fitted into a ^-in. rabbet in
the back of the board M, These boards
form the top of the bench, and are
l:v v^<v.^v_'Vl^_
faatoned to the top pieces of the sup-
portfl with long screws. The board E
is 10 in. wide and nailed to the back
of the bench. On top of this board
and at right angles with it is fastened
a 2^in. board, F. These two boards
are i in. thick and 3^ ft. long. Holes
are bored or notches are cut in the pro-
jecting board, F, to hold tools.
Details of the vise are shown in Fig.
3, which is composed of a 2 by 6-in.
block 12 in. long, into which is fast-
ened an iron bench screw, S. Two
guide rails, GO, J by li in. and 20 in.
long, are fastened into mortises of the
block 08 shown at KK, and they slide
in corresponding mortises in a piece of
2 by 4-iiL pine bolted to the under side
of the main top board as shown at L.
The bench screw nut is fastened in the
2 by 4-iD, piece, L, between the two
moriJsed holes. This piece, L, is se-
curely nailed to one of the top cross
pieces, C, of the supports and to a piece
of 2 by 4-in. pine, P, that is bolted to
the under sides of Uie top boards at
the end of the bench. The bolts and
the bench screw can be purchased from
any hardware store for less than one
dollar.
pMvilnc CoDs to Make Flexible
Win Conoectioiis
When connections are made to bells
and batteries with small copper wires
covered with cotton or silk, it is neces-
sary to have a coil in a short piece of
the line to make it flexible. A good
way to do this is to provide a short rod
about A in. in diameter cut with a
slit in one end to hold the wire and a
loop made on the other end to turn with
the fingers. The end of the wire is
PhotofraphloE tbe North Star
The earth revolving as npon an axis
is inclined in such a position that it
points toward the North star. To an
observer in the northern hemisphere
the effect is the same as if the heavens
placed in the slit and the coil made
around the rod by turning with the
loop end.
Photosraph ft th* North Star
revolved with the North star as a
center. A plate exposed in a camera
which is pointed toward that part of
the sky on a clear night records that
effect in a striking manner. The ac-
companying illustration is from a pho-
tograph taken with an exposure of
about three hours, and the trace of
the stars shown on the plate by a series
of concentric circles are due to the rota-
tion of the earth.
The bright arc of the circle nearest
the center is the path of the North
star. The other area are the impres-
sions left by neighboring stars, and it
will be noticed that their brightneas
varies with their relative brilliancy.
Many are so faint as to be scarcely dis-
tinguished, and, of course, telescopic
power would reveal myriads of heav-
enly bodies which leave no trace on a
plate in an ordinary camera. The
North or pole star is commonly con-
sidered at a point directly out from
the axis of the earth, but the photo-
graph shows that it is not so located.
The variation is known astronomically
to be 1} deg. There Is a slight ir-
regularity in the position of the earth's
Joogic
ftxifla bat the changes are so bIow as
to be noticed only by the lapse of a
thousand years. Five tbouBaud years
ago the pde star was Draconis, and in
eighteen thousand years it will be
Lyiae. We have direct evidence of the
change of the earth's axis in one of
the Egyptian pyramids where an aper-
ture marked the position of the pole
star in ancient times, and from this it
is now deviated considerable.
This experiment is within the reach
of everyone owning a camera. The
photograph shown was taken by. an
ordinary instrument^ using a standaid
plate of common speed. The largest
stop was used and the only requirement
lieyond this is to adjust the camera in
a position at the proper inclination and
to make the exposure for as long as
desired. On long winter nights the ex-
posure may be extended to 13 hours, in
which event the curves would be length-
ened to full half-circles.
The Korth star is one of the easiest
to locate in the entire heavens. The
constellation known as the Great Dip-
per is near hy, and the two stars that
mark the comers of the dipper on the
extremity farthest from the handle lie
in 8 line that passes across the North
star. These two stars in the Great
Dipper are called the pointers. The
North Star is of considerable brilliancy,
- though hy no means the brightest in
that part of the heavens. — Contributed
by C. S. B.
How to Rellslit a Match
A match may be a small thing on
which to practice economy and yet a
great many
times one wishes
to relight a
match either for
economy or ne-
cessity. The usu-
al method is to
place the burnt
portion of the
match in the
flame to be re-
lighted as bUowu
in ¥ig. 1. It is very hard to relight
the charred end and usually burnt
fingers are the result of pushing the
match farther in the Same. Qoli the
burnt end in the fingers and place the
other end in the flame as shown in Fig.
2. A light will be secured quickly ami
the flame will only follow the stick tt
the old burnt portion.
Home-Made Hand DrlU
In the old kitchen tool box I found a
rusty egg beater of the type shown
in Fig. 1. A shoemaker friend do-
D*Uil* of Hand Drill
nated a pegging awl. Fig. 2, discarded
by him due to a broken handle. With
these two pieces of apparatus I made a
hand drill for light work in wood or
metal. By referring to Fig. 3 the
chuck. A, with stem, B, were taken
from the awl. The long wire beater
was taken from the beater frame and
3 wire nail, C, soldered to the frame,
D, in the place of the wire. The flat
arms were cut off and shaped as shown
by E. The hole in the small gear, G,
was drilled out and a tube, F, fitted
and soldered to l>oth the gear and the
arms E. This tube, with the gear and
arms, was slipped over the nail. Or
then a washer and, after cutting to thf
proper length the nail was riveted t^
make a loose yet neat fit for the emah
gear. The hand drill was then com*
pleted by soldering the stem, B, of th#
chuck to the ends of the flat arms E.
Drills were made by breaking off sew*
ing-machine needle!^ nbove the ere af
Digitized byGOOgIC
^unm in Fig. 4 at A, and the end
ground to a drill point. — Contributed
by E. B, J., Shippenaburg, Pa.
How to Make a Statfanary Wlndmlli
A vindmill that can be made sta-
tionary and wi]l run regardless of the
Runs tn Anr Wind
direction of the wind is here illus-
trated. Mills of this kind can be built
of larger size and in some localities
have teen used for pumping water.
Two semi-circular Surfaces are se-
cured to the axle at right angles to each
other and at 45 deg. angle with that
of the axle as shown in Fig. 2. This
axle and wings are mounted in bearings
on a solid or stationary stand or frame.
By mounting a pulley on the axle with
the wings it can be used to run toy
machinery.
Electric AnaMthetia
It ia a well known (act that mag<
netism is used to demagnetize a watch,
and that frost is drawn out of a frozen
member of the body by the application
of snow. Heat is also drawn out of a
burned hand by holding it close to the
fire, then gradually drawing it awaj.
The following experiment will show
how a comparatively feeble electric cur-
rent can undo the work of a strong one.
I once tried to electrocute a rat
tthich was caught in a wire basket trap
and accidentally discovered a painless
method. I say painless, because the
rodent does not object to a second or
third experiment aftec recovering, and
is apparently rigid and without feeling
while under its influence.
To those who would like to try the
experiment I will say that my outfit
consisted of an induction coil with a
f-in. iron core about 3 in. long. The
primary coil was wound with four lay-
era of No. 20 wire and the secondary
contains 4 oz. No. 32 wire, and used
on one cell of bichromate of potash
plunge battery. The proper amount of
current used can be determined by giv-
ing the rodent as much as a healthy
man would care to take. Fasten one
secondary electrode to the trap contain-
ing the rat and with a wire nail fast-
ened to the other terminal, hold the vi-
brator of the coil with your finger and
let the rat bite on the nail and while
doing so release the vibrator. In three
seconds the rat will be as rigid as if
dead and the wires can be removed.
Now eonnect your wires to the pri-
mary binding-posts of the coil and
wind the end of one of them around the
rat's tail and start the vibrator. Touch
the other terminal to the rafs ear and
nose. In a few minutes he will be as
lively as ever. — Contributed by Chas.
llaeusser, Albany, N. Y.
A Simple Battery Rlieostat
A spring from an old shade roller le
mounted on a board 4 in. wide, 9 in.
long and f in. thick. A binding-post
is fastened to this board at each end,
to which is attached the ends of the
spring, as shown in Fig. 1. The temper
of a small portion of each end of the
B«tt«nr RhMrtM
d by Google
spring will need to be drawn. This
can be accomplished by heating over
an alcohol lamp or in a fire and allow-
ing it to cool alowly. The ends are
then shaped to fit the binding-posts.
A wire 18 connected to one of the bind-
ing-posts and a small square piece of
copper is attached to the other end of
the wire, as shown in Fig. 2. When
this device ia placed in a circuit the
current can be regulated by sliding the
small square copper piece along the
spring. — Contributed by H. D. Har-
kins, St. Louis, Mo.
A Frame tor DttIiik Rlnu
No doubt many amateur photog-
raphers are troubled about drying
films and to keep
them from curl-
ing. The. problem
may be solved in
the following way:
Make a rectangu-
lar frame out of
pine wood, i by i
in., as shown in
the sketch. It is
made a little wid-
er and a little
shorter than the
film to be dried.
This will allow
- the end of the
film to be turned over at each end of
the frame and fastened with push pins.
Do not stretch the film when putting
it on the frame as it shrinks in dry-
ing. The film will dry quicker and
will be fiat when dried by using this
frame. — Contributed by Elmer H,
Flehr, Ironton, Ohio.
A Home-Mode Novetty Clock
This clock that is shown in the ac-
companying engraving is made in scroll
work, tiie cathedral and towers being
of white maple, the base is of walnut
with mahogany trimmings, all finished
'oi their natural colors. It baa 11 bells
in the two towers at the sides and 13
miniature electric lamps of different
colors on two electric circuits. The
clock is operated by a small motor re-
ceiving its power from dry cell bat-
teries. This motor turns a brass cyl-
inder over which runs a continuous roll
of perforated paper similar to that used
on a pianola. A series of metal fingers,
connected by wires to the bells, press
lightly on tiiis brass roll and are in-
sulateiS from the roll by the perforated
paper passing between. When a per-
foration is reached a finger will make
a contact with the brass roll for an
instant which makes a cireuit with the
magnet of an electric hammer in its
respective bell or forms the circuit
which lights the electric bulbs as the
case may be.
At each hour and half hour as the
clock strikes, the motor is started auto-
matically and the chimes sound out the
tunes while the colored lights arc
turned on and off; two small doore in
the cathedral open and a small figure
comes out while the chimes are playing,
then returns and the doors are ctoBed.— •
Contributed by C. V. Brokenicky, BluB
fiapids, r
d by Google
Fourth-of-J\ily Catapult
Among the numerous exciting
amusements in which boys may par-
ticipate during the Fourth-of-July cel-
ebration is to make a cannon that will
shoot life-sized dummies dressed in old
clothes. Building the cannon, as de-
scribed in the following, makes it safe
to fire and not dangerous to others,
provided care is taken to place it at an
angle of 45 deg. and not to fire when
anyone is within its range. The pow-
der charge is in the safest form possi-
ble, as it is fired with a blow from a
hammer instead of lighting a fuse. If
the cannon is made according to direc-
tions, there cannot possibly be any ex-
plosion.
The materials used in the construc-
tion of the catapult may be found in
almost any junk pile, and the only
work required, outside of what can be
done at home, is to have a few threads
cut on the pieces of pipe. The fittings
can be procured ready to attach, ex-
cept for drilling a hole for the firing
pin.
tapped in the center for a 1-in. pipe.
Thread both ends of a 1-in. pipe that
is 4 in. long, Fig. 3, and turn one end
securely into the threaded hole of the
cap. This pipe should project ^4 'n.
inside of the cap. Fit a cap. Fig. 4,
loosely on the other end of the 1-in.
pipe. A hole is drilled into the center
of this small cap just large enough to
receive a 6-penny wire nail, B, Fig. 4.
This completes the making of the
cannon and the next step is to con-
struct a dummy which can be dressed
in old clothes. Cut out two round
blocks of wood from hard pine or oak
that is about 3 in. thick, as shown in
Fig. 5. The diameter of these blocks
should be about ^^ in. less than the
hole in the cannon, so they will slide
easily. In the center of each block
bore a ^-in. hole. Secure an iron rod,
about 4 ft. long, and make a ring at
one end and thread 4 in. of the other.
Slip one of the circular blocks on the
rod and move it up toward the ring
about 14 in. Turn a nut on the threads.
a Which will Hi
Llfc-8ii« Diunmi' 100 Ft. tlueuih the Air
Secure a piece of common gas pipe,
4 to 6 in. in diameter, the length being
from 18 to 24 in. Old pipe may be
used if it is straight. Have a machin-
ist cut threads on the outside of one
end, as shown in Fig. I, and fit an iron
cap. Fig. 2, tightly on the threaded end
of the pipe. The cap is drilled and
stopping it about 3H in. from the end
of the rod. Slip the other circular piece
of wood on the rod and up against the
nut, and turn on another nut to hold
the wooden block firmly in its place at
the end of the rod. If the rod is flattened
at the place where the upper block is
located, it will hold tight. These are
jOOgIc
shown in Fig. 6. TAke some iron wire
about J in. in diameter and make a
loop at the top of the rod for the head.
Wire thiB loop to the ring made in the
rod and make the head about this loop
by using canvas or gunny cloth sewed
up forming a bag into which is stuffed
either exceJeior, paper or hay. The
arms are made by lashing with fine wire
or strong hemp, a piece of wood 1 in.
square and 20 in. long, or one cut in
the shape shown in Fig. 6, to the rod.
Place the wood arms close to the bottom
of the head. Make a triangle of wire
and fasten it and the cross arm securely
to the top of the rod to keep them from
slipping down. A false face, or one
painted on white cloth, can be sewed
on the stuffed bag. An old coat and
trousers are put on tne frame to com-
plete the dummy. If the clothing is
not too heavy and of white material so
much the better, lo greatly increase
the spectacular flight-, ttrough the air,
a number of different colored streamers,
6 or 8 in. wide and several feet in
length made from bunting, can be at-
tached about the waist of the dummy.
The complete dummy should not weigh
more than 6 lb.
The cannon is mounted on a board
with the cap end resting against a cleat
which is securely nailed to the board
and then bound tightly with a rope as
shown in Fig. 8, Lay one end of the
board on the ground and place the
ottier on boxes or supports sufQciently
high to incline it at an angle of about
45 deg. Enough of the board should
project beyond the end of the cannon
on which to lay the dummy. When
completed as described, it is then ready
to load and fire. Clear away everyone
in front and on each side of the cannon,
as the dummy will fly from 50 to 100 ft.
and no one must be in range of its
flight. This is important, as the rod
of the frame holding the clothes will
penetrate a board at short range. An
ordinary shot gun cartridge of the
paper shell type is used for the charge
and it must be loaded with powder
only. Coarse black powder is the best,
but any size will do. When loading
the rod witii the wooden blocks, on
which the dummy ia attadied, do not
place the end block against the breech
end of the cannon, leave about 3 or 3
in. between the end of the cannon and
the block. Insert the cartridge in the
1-in. pipe. The cartrit^e snoold fit
the pipe snug, which it will do if th»
proper size is secured. Screw on the
firing-cap, insert the wire nail firing-
pin untu it rests against the firing-cap
of the cartridge. If the range is clear
the firing may be done by giving the
nail a sharp rap with a hammer. A
loud report will follow with a cloud of
smoke and the dummy will be seen fly-
ing through the air, die arms, legs and
streamers fluttering, which presents a
most realistic and life-like apearance.
The firing may be repeated any number
of times in the same manner.
How to Make a Miniature Vidcano
A toy volcano that will send forth
flames and ashes with lava streaming
down its sides in real volcanic action
can be made by any boy without any
more danger than firing an ordinary
flre-cracker. A mound of sand or earth
is built up about 1 ft. high in the shape
of a volcano. Boll up a piece of heavy
paper, making a tube 5 in. long and
1^ in. in diameter. This tube of paper
is placed in the top of the mound by
flrst setting it upon a flat sheet of
paper and building up the sand or
d by Google
earth about the Bides until it is all cov-
ered esoepting the top opeoing. This
is to keep all dampnese ava; from the
mizture to be placed withlB.
A fuse from a fire-cracker, or one
made by winding some powder in tisBue
paper, ie placed in the paper tube of
the volcano with one end extending
over the edge. Qet some potash from
a dmg store and be sure to state the
purpose for which it is wanted, as there
are numerous kinds of potash that will
not be suitable. An equal amount of
sugar is mixed with tiie potash and
placed in the paper tube. On top of
this put a layer of pure potash and on
this pour some gun powder. This com-
pletes the volcano and it only remains
for the fuse to be lighted and action
will begin with an explosion which
sends {ire, smoke and sparks upward.
Flames will follow and the lava pours
down the sides of the mound.
Wire Loop CoDoections for Battery
BlodiDE-Posts
The trouble with battery binding-
post connections can be
avoided by winding the
bare end of the connect-
ing wire around the
binding-post screw and
then back around its
extending length as
shown in the sketch.
Always screw down permanent connec-
tions with pliers.
Meltlos Metal In the Pbme of ■
Match
The flame of au ordinary match has
a much higher temperature than is gen-
erally known and will melt cast-iron
or steel filings. Try it by striking a
match and sprinkle the filings through
the flame. Sputtering sparks like gun-
powder will be the r^olt of the melt-
ing metaL
The squirrel slaughter of Bussia
amounts to 25,000,000 per year.
' Landtcape Drawins Made Easy
With this device anyone, no matter
how little bis artistic ability may be,
can draw accurately and quickly any
little bit of scenery or other subject
and get everything in the true perspec-
tive and in the correct proportion.
Drawins "'^ *>>' Aid of Rflfl«ctlns QIUM*
No lens is required for making this
camera — just a plain mirror set at an
angle of 45 deg., with a piece of ordi-
nary glass underneath, a screen with a
peek bole and a board for holding the
drawing paper. The different parts
may be fastened together by means of
a box frame, or may be hinged together
to allow folding up when carrying and
a good tripod of heavy design ^ould
be used for supporting it. In order to
get the best results the screen should
be blackened on the inside and the eye-
piece should be blackened on the side
next to the eye. A piece of black card-
board placed over the end of the eye-
piece and perforated with a pin makes
an excellent peek hole.
In operation the rays of light com-
ing from any given object, such as the
arrow AB, strike the inclined mirror
and are reflected downward. On strik-
ing the inclined glass a portion of the
light is again reflected and the rays en-
tering the eye of the operator produce
the virtual image on the paper as
shown. The general outlines may he
sketched in quickly, leaving the details
to be worked up later. This arrange-
ment may be used for interior work
when the illumination is good.
d by Google
Irrigating witii Tomato Cans
The following is an easy and efEect-
fve way to start plants in dry weather :
Sink an ordinary tomato can, with a
%-in. hole ^ in,
from the hot-
torn, in the
ground so that
the hole will be
near the roots
of the plant.
Tamp the dirt
around b.oth
plant and can,
and fill the lat-
ter with water.
Keep the can filled until the plant is
out of danger. — Contributed by L. L.
Sclweiger, Kansas City, Mo.
Fountain for an Ordinary Pen
Take two steel pens, not the straight
kind, and place them together, one
above the other, in the penholder.
With one dip of ink 60 or 70 words
may be written. This saves time and
the arrangement also prevents the ink
from dropping off the pen. — Contrib-
uted by L. M, Lytle, Kerrmoor, Pa.
Homemade Mousetrap
Bore a 1-in. hole, about 2 in. deep,
in a block of wood and drive a small
nail with a sharp point at an angle so
it will project into the hole about half
way between the top and bottom, and
in the center of the hole, as shown.
Mole <□ Wood
bait at the bottom of the hole, the sharp
point will catch it when it tries to
back out. Almost anyone can make
this trap in a short time, and it will
catch the mice as surely as a more
elaborate trap.
Clear Wax Impressions from Seals
A die must be slightly damp to make
clear impressions on sealing wax and to
keep it from slicking to the wax. A
very handy way to moisten the die is
to use a pad made by tacking two
pieces of blotting paper and one of
File the end very sharp and bend it
down so that when the mouse pushes
its head past it in trying to get the
Blotto' Pad
cloth to a wooden block of suitable
size, and saturate the blotters with
water before using. Stamp the die on
the pad and then on the hot wax. The
result will be a clear, readable impres-
sion. — Contributed by Fred Schu-
macher, Brooklyn, N, Y.
A Window Stick
Although the windows in factories
and houses are usually provided with
weights, yet the stick shown in the
sketch will be found very handy in case
all of the windows are not so equipped.
It is made of a piece of pine wood long
Notehn Id Stick
enough to hold the lower sash at a
height even with the bottom of the
upper, and about 1^ or 2 in. wide.
Notches may be cut in the stick as
shown, each being wide enough to
firmly hold the sash. Thus, with the
stick illustrated, the sash may be held
at three different heights on the side
A, and at still another on the side B.
— Contributed by Katharine D, Morse,
Syracuse, N. Y.
d by Google
How to Make a Canoe
A practical and serviceable canoe,
one that is inexpensive, can be built by
any boy, who can wield hammer and
saw, by closely following the instruc-
tions and drawings, given in this article.
It is well to study
these carefully before
beginning the actual
work. Thus an under-
standing will be gained
of how the parts fit to-
gether, and of the way
to proceed with the
work.
Dimensioned draw-
ings of the canoe and
molds are contained in
Fig. 1. The boat is
built on 3 temporary
base. A, Fig. 3, which
is a board, 14 ft. 1 in.
long, 3 in. wide and IV^
in. thick. This base is
fastened to the trestles and divided
into four sections, the sections on each
side of the center being 4 ft, long.
The next thing to be considered are
the molds (Fig. 3). These are made
of 1-in. material. Scrap pieces may
be found that can be used for these
molds. The dimensions given in Fig.
1 are for one-half of each form as
shown in Fig. 3, under their respective
letters. The molds are then tempo-
rarily attached to the base on the di-
vision lines.
Proceed to make the curved ends as
shown in Fig, 4. Two pieces of
from a carriage or blacksmith's shop.
The pieces are bent by wrapping a
piece of wire around the upper end
and baseboard. The joint between the
curved piece and the base is tempo-
CaDoa and Hold* Details
rary. Place a stick between the wires
and twist them until the' required
shape is secured. If the wood does not
bend readily, soak it in boiling water.
The vertical height and the horizon-
tal length of this bend are shown in
Fig. 4. The twisted wire will give the
right curve and hold the wood in shape
until it is dry.
The gunwales are the long pieces B,
Fig. 2, at the top of the canoe. These
are made of strips of ash, 15 ft, long,
1 in. wide and 1 in. thick. Fasten them
temporarily to the molds, taking care
to have them snugly fit the notches
ShaplDB tha CaacH
straight-grained green eltn, 32 in, long, shown. The ends fit over the outside
1% in. wide and 1 in. thick, will be of the stem and stern pieces and are
required. The elm can be obtained cut to form- a sharp point, as shown
jOOgIc
in Fig. 5. The ends of the gunwales stem and stem pieces as shown in F^.
are fastened permanently to the up- 4. When this piece is fast<>ned in
per ends of the bent stem and stem place, the base can be removed. The
pieces with several screws. seats are attached as shown in Fig. 8,
CoDatroetloa of tha Varioai Put*
Two other light strips, C and D,
Fig. 2, are temporarily put in, and
evenly spaced between the gunwales
and the bottom board. These strips
are used to give the form to the ribs,
and are removed when they have
served their purpose.
The ribs are now put in place. They
are fomied of strips of well seasoned
elm or hickory, soaked in boiling water
until they bend without breaking or
cracking. Each rib should be 1^ tn.
Paddle Parta
wide, % in. thick and long enough to
reach the distance between the gun-
wales after the bend is made. The ribs
are placed 1 in. apart. Begin by plac-
ing a rib in the center of the base and
on the upper side. Nail it tempora-
rily, yet securely, and then curve the
ends and place them inside of the gun-
wales, as shown in Fig. 6. Fasten the
ends of the rib to the gunwales with
1-in, galvanized brads. This method
is used in placing all the ribs. When
the ribs are set, remove the pieces C
and D, Fig. 2, and the molds.
A strip is now put in to take the
place of the base. This strip is 1% in.
wide, ^ in. thick and long enough to
reach the entire length of the bottom
of the canoe. It is fastened with
screws on the inside, as shown in Fig.
7, and the ends are lap-jointed to the
and the small pieces for each end are
iitted as shown in Fig, 9.
The frame of the canoe is now ready
to be covered. This will require 5%
yd, of extra-heavy canvas. Turn the
framework of the canoe upside down
and place the canvas on it. The cen-
ter of the canvas is located and tacked
to the center strip of the canoe at the
points where ribs are attached. Cop-
per tacks should be used. The canvas
is then tacked to the ribs, beginning
at the center rib and working toward
each end, carefully drawing the can-
vas as tightly as possible and keeping
it straight. At the ends the canvas is
split in the center and lapped over the
bent wood. The surplus canvas is cut
off. A thin coat of glue is put on, to
shrink the cloth and make it water-
proof.
The glue should be powdered and
brought into liquid form in a double
boiler. A thin coat of this is applied
with a paintbrush. A small keel made
of a strip of wood is placed on the
bottom to protect it when making a
landing on sand and stones in shallow
A Sliwie Paddle
water. When the glue is thoroughly
dry the canvas is covered with two
coats of paint, made up in any color
with the best lead and boiled linseed
ioog Ic
oil. The inside is coated with spar
vamish to give it a wood color.
The paddles may be made up in two
ways, single or double. The double
paddle has a hickory pole, 7 ft. long
and 2 in. in diameter, for its center
part. The paddle is made as shown
in Fig. 10, of ash or cypress. It is 12
in, long, and 8 in. wide at the widest
part. The paddle end fits into a notch
cut in the end of the pole (Fig. 11).
A shield is made of a piece of tin or
rubber and placed around the pole
near the paddle to prevent the water
from running to the center as the pole
is tipped from side to side. The com-
plete paddle is shown in Fig. 13. A
single paddle is made as shown in Fig.
13. This is made of ash or any other
tough wood. The dimensions given
in the sketch are sufHcient without a
description.
Thorns Used as Needles on a
Phonograph
Very sharp thorns can be used suc-
cessfully as phonograph needles.
These substitutes will reproduce sound
very clearly and with beautiful tone.
The harsh scratching of the ordinary
needle is reduced to a minimum, and
the thorn is not injurious to the record.
Tool Hangers
A tool rack that is serviceable for al-
most any kind of a tool may be made
by placing rows of dif-
ferent-size screw eyes
on a wall close to the
workbench, so that files,
chisels, pliers and other
tools, and the handles of
hammers can be slipped
through the eyes.
A place for every tool
saves time, and besides,
when the tools are hung
up separately, they are
less likely to be dam-
aged, than when kept
together on the work-
bench.
Child's Footrest on an Ordinary Chair
Small chairs are enjoyed very much
by children for the reason that they
can rest their feet on the floor. In
many households there are no small
chairs lor the youngsters, and they
have to use larger ones. Two things
result, the child's legs become tired
from dangling unsupported or by try-
ing to support them on the stretchers,
and the finish on the chair is apt to
T
Pootreit on Chair
be scratched. The device shown in the
sketch forms a footrest or step that
can be placed on any chair. It can be
put on or taken oft in a moment. Two
suitable pieces of wood are nailed to-
gether at an angle and a small notch
cut out, as shown, to fit the chair
stretcher.
Drying Photo Postal Cards
A novel idea for drying photo postal
cards comes from a French magazine.
The drying of the cards takes a long
time on account of their thickness, but
may be hastened by using corrugated
paper for packing bottles as a drying
stand. Curve the cards, printed side
up, and place the ends between two
Card OB Dryn
corrugations at a convenient distance
apart. They will thus be held firmly
while the air can circulate freely all
around them.
d by Google
preserving Key Forms
After losing a key or two and having-
some difficulty in replacing them, I
used the method shown in the sketch
to preserve the outlines for making
new ones. All the keys I had were
traced on a piece of paper and their
forms cut out with a pair of shears.
When a key was lost, another could
thus be easily made by using the paper
form as a pattern.— Contributed by
Ernest Weaver, Santa Anna, Texas.
Renewing Typewriter Ribbons
Roll the ribbon on a spool and mean-
while apply a little glycerine with a
fountain-pen filler. Roll up tightly and
lay aside for a week or ten days. Do
not apply too much glycerine as this
will make the ribbon sticky — a very
little, well spread, is enough. The
same application will also work well
on ink pads. — Contributed by Earl R.
Hastings, Corinth, Vt.
Drinking Trough for Chickens
A quickly made and sanitary drink-
ing trough for chickens is formed of a
piece of ordinary two or three-ply roof-
ing paper. The paper is laid out as
shown, and the edges are cemented
with asphaltum and then tacked to the
side of a fence or shed.
Ordinary Pen Used as a Fountain Pen
It is a very simple matter to make a
good fountam pen out of an ordinary
pen and holder. The device is in the
form of an attachment readily con-
nected to or removed from any ordi-
nary pen and holder, although the
chances are that when once used it
will not be detached until a new pen
is needed.
Take the butt end of a quill, A, from
a chicken, goose or turkey feather —
the latter preferred as it will hold more
ink — and clean out the membrane in
it thoroughly with a wire or hatpin.
Then make a hole in the tapered end
of the quill just large enough to pull
through a piece of cotton string. Tie
a knot in one end of this string, B, and
pull it through the small end of the
quill until the knot chokes within, then
cut oflf the string so that only % in.
projects. Shave out a small stopper
from a bottle cork for the large end
B<(g*-I
latalD AtUetuncDt
of the quill. This completes the ink
Place the quill on top of the pen-
holder C, so that its small end rests
against the pen immediately above its
eye. Pull the string through this eye.
Securely bind the quill to the pen and
holder with a thread, as shown, first
placing under it a wedge-shaped sup-
port of cork or wood, D, hollowed on
both sides to fit the curved surfaces of
the quill and holder. The illustration
shows the detail clearly.
To fill the reservoir place the pen
upright on its point and dip a small
camel's-hair brush or cloth-hound
toothpick into the ink bottle and
"scrape" off the ink it will hold on the
inner edge of the quill. Cork tightly,
and the device is ready for use. When
not in use place the holder at an an-
gle with the pen uppermost. — Contrib-
uted by Chelsea C. Eraser, Saginaw,
Michigan.
d by Google
How to Construct a Small Thermostat
By R. A. McCLURE
It is a well known fact, that there Such a combination of two metals
is a change in the dimensions of a constitutes a simple thermostat. If
piece of metal, due to a change in its the movement of the free end of the
temperature. This change in dimen- combination be made to actuate a
sions is not the same for all mate- needle moving over a properly cal-
rials; it being much greater in some ibrated scale, we have a simple form
s '
S
Simple ThciBKHMt
materials than in others, while in some
there is practically no change.
If two thin, narrow strips of dif-
ferent metals, that contract or expand
at different ratio due to a variation in
temperature, be rigidly fastened to-
gether at their ends, and the combina-
tion then heated or cooled, the com-
bined piece will have its shape changed.
One of the pieces will increase in
length more than the other, due to a
rise in temperature, and this same
piece will decrease in length more than
the other when subjected to a decrease
in temperature.
If one end of this combined piece
be rigidly clamped to a support, as
shown in Fig. 1, and the combination
then have its temperature changed, the
free end will move to the right or left
of its original position, depending upon
which of the pieces changes in length
the more. If there is a rise in tem-
perature and the right-hand piece B
increases in length faster than the left-
hand piece A, the free end of the com-
bined piece win move to the left of
its original position. If, on the other
hand, there is a decrease in temper-
ature, the right-hand piece will decrease
in length more than the left-hand
piece, and the upper or free end
will move to the right of its original
position.
si^
-l-i'-l-i'-l— r-l-i'4-i
Coupl* and UouDtlDC Strip
of thermometer. If two electrical con-
tacts, CC, be mounted on the right
and left-hand sides of the upper end
of the combined piece, as shown in Fig.
1, we have a thermostat that may be
used in closing an electrical circuit
when the temperature of the room in
which it is placed rises or falls a cer-
tain value. These contacts should be
so arranged that they can be moved
toward or away from the combined
piece independently. By adjusting the
position of these contacts, the elec-
trical circuit will be closed when the
temperature of the thermostat has
reached an experimentally predeter-
mined value.
The following description is that of
a thermostat, constructed by the au-
thor of this article, which gave very
satisfactory results. First obtain a
piece of steel, 6 in, long, % in. wide
and 3/100 in. thick, and a piece of
brass, 6 in. long, % in. wide and 3/100
in. thick. Clean one side of each of
these pieces and tin them well with
solder. Place the two tinned surfaces
just treated in contact with each other
and heat them until the solder on
their surfaces melts and then allow
them to cool, A better way would be
to clamp the two thin pieces between
two heavy metal pieces, and then heat
the whole to such a temperature that
z: Iv^jOOglC
the solder will melt, and then allow
it to cool. This last method will give
more satisfactory results than would
be obtained if no clamps are used, as
the thin metal pieces are liable to bend
in Fig. 5. Now bend the DJece, at the
dotted line in Fig. 5, into the form
shown in Fig. 6, making sure that the
dimension given is correct. This piece
can now be mounted upon the piece
1=1^
4> <1>
i-i-i— .i— 1
^^
Biipparl far Ceuple, i
out of shape when they are heated,
and as a result they will not be in
contact with each other over their en-
tire surfaces. After these pieces have
been soldered together forming one
piece, which we shall for convenience
speak of as the couple, two small holes
should be drilled in one end to be used
in mounting it, and a notch cut in the
other end, as shown in Fig. 3,
Cut from some thin sheet brass,
about 2/100 in. in tkickness, two pieces,
Yi in. wide and % in, long. Bend these
pieces of brass over a piece of hatpin
wire, thus forming two U-shaped
pieces. Cut off a piece of the hatpin,
% in. long, and fasten it across the
notched end of the couple by means of
the U-shaped piece of brass, which
should be soldered in place as shown
in Fig. 3. All superfluous solder
should then be cleaned from the
couple and the steel pin. Now bend
the couple so as to form a perfect half
circle, the brass being on the inside.
The base upon which this couple is
to be mounted should be made as fol-
lows: Obtain a piece of brass, 7 in.
long, % in. wide, and % in. thick. In
this piece drill holes, as indicated
in Fig. i, except A, which will be drilled
later. Tap the holes B, C and D for
14-in. machine screws.
Cut from some %-in. sheet brass a
piece, 1% in. long and % in, wide, to
be used as a support for the couple.
In one end of this piece drill two small
holes, as Indicated in Fig. 5, and tap
them for -^in. machine screws. In
the opposite end cut a slot, whose
dimensions correspond to those given
1 NMdlt-Hauiitloa 9tHv
shown in Fig. 4, by means of two brass
machine screws placed in the holes B.
The slot in the support for the couple
will permit its being moved along the
mounting strip, the purpose of which
will be shown later.
Next cut another piece of %-in.
brass, 2% in. long and % in. wide. In
this piece drill two %-in. holes, as in-
dicated in Fig. 7, and then bend it at
the dotted lines into ttie form shown
in Fig. 8. Mount this strip upon the
main mounting strip by means of two
brass machine screws placed in the
holes C, so that the upper part is
over the center-punch mark for the
hole A in the main mounting strip.
You are now ready to drill the hole
A, which should be done as follows:
Remove the piece you last mounted
and then clamp the tnatn mounting
strip in the drill press so that the
center-punch mark for the hole A is
directly under the point of the drill.
Then remount the piece you just re-
moved, without disturbing the piece
you clamped in the drill press, and
drill a small hole through both pieces.
This hole should be about 3/64 in. in
diameter. After this small hole has
been drilled through both pieces, a
countersink should be placed in the
drill chuck and the hole in the upper
piece countersunk to a depth equal to
half the thickness of the metal in
which it is drilled. Unclamp the pieces
from the drill press, turn them over,
and countersink the small hole in what
was originally the lower piece. The
object of countersinking these holes is
to reduce the bearing surface of »
izocbyClOOgIC
small shaft that is to be supported in
the holes and must be as free from
friction as possible.
We may now construct the needle,
or moving portion of the thermostat,
which should be done as follows: The
shaft that is to carry the moving sys-
tem must be made from a piece of
steel rod, about ^\ in. in diameter.
Its dimensions should correspond to
those given in Fig. 9. Considerable
care should be used in turning this
shaft down, to make sure that it fits
perfectly in the small holes in the sup-
porting pieces. The shaft should turn
freely, but it must not be loose in the
holes, nor should it have hut a very
small end play.
Cut from some 1/32-in. sheet brass
a piece whose dimensions correspond
to those given in Fig, 10, Drill a
'^-in. hole, A, in this piece, and cut
a slot, B, from one side of the piece
into this hole, and a second slot, C,
along the center of the piece as in-
dicated in the figure. Consider-
able care should be exercized in cut-
ting the slot C, so that its breadth is
exactly equal to the diameter of the
piece of steel wire fastened on the end
of the couple. Also make sure to get
the sides of this slot perfectly smooth.
Cut from some %-in. brass a disk hav-
ing a diameter of '^ in., and solder it
to the end of the needle. The dotted
line in Fig. 10 indicates the proper posi-
tion of the disk. Now drill a hole, D,
through the disk and needle, of such
a diameter that considerable force
must be applied to the steel shaft you
have already made, in order to force
it through the hole. Force the shaft
the steel shaft in its bearings and see
that it turns perfectly free. Then
place the steel pin, on the end of the
couple, in the slot C, and fasten the
Stwft fei NmOI* ind Mecdlt
through this hole until the needle is
exactly in the center of the shaft.
The parts of the thermostat thus far
made can now be assembled. Place
TO FIMME or THCRMOSWT
TO nwMc or thchmostat
other end of the couple, by means of
two machine screws, to the support
made for the couple. Increase or de-
crease the temperature of the ther-
mostat and note the results. If
everything is working all right, the
end of the needle should move
when the temperature of the ther-
mostat is cbaiged. The amount the
end of the i(*edle moves can be easily
changed by moving the support or the
couple toward or away from the shaft
supporting the needle, which changes
the position of the steel pin in the slot
C. The nearer the steel pin is to the
shaft supporting the needle, the greater
the movement of the end of the needle
due to a given change in temperature,
A small piece of white cardboard
can be mounted directly under the end
of the needle by means of small brass
strips, that in turn can be attached to
the lower ends of the main mounting
holes D, Fig. 4. A scale can be
marked on this piece of cardboard by
noting the position of the needle corre-
sponding to different temperatures as
determined by a thermometer. When
this scale has been completed, you can
use the thermostat as a thermometer.
Two contacts may be mounted, one
on each side of the needle, in a man-
ner similar to the method suggested
for mounting the cardboard. These
contacts should be so constructed that
Dgle
the end of the needle will slide over
them with little friction, and so that
their position with respect to the end
of the needle may be easily changed.
Both contacts must be insulated from
the remainder of the thermostat, and
may or may not be connected together,
depending on how the thermostat is to
be used.
It would be advisable, if possible, to
have the part of the needle that touches
the contact points, as well as these
points, of platinum, as the arc that is
likely to be formed will not destroy
the platinum as easily as it will the
brass. A small wooden containing case
can now be made and the thermostat
is complete. There should be a large
number of holes drilled in the sides,
ends and back of the case so that the
air inside may be always of the same
temperature as the outside air.
In adjusting, testing, or calibrating
your thermostat, make sure that it is
in the same position that it will be in
when in use.
The connections of the thermostat
for ringing one bell when the tem-
perature rises or falls to a certain value,
are shown in Fig, 11, The connections
of the thermostat for ringing one bell
when the temperature rises to a cer-
tain value and another bell when the
temperature falls to a certain value, are
shown in Fig. 12. The complete
thermostat is shown in Fig. 13.
A Tailless Kite
The frame of a 3-ft, kite is made of
two sticks, each 3 ft. long. These are
tied together so that the cross stick
will be at a distance of 15 per cent of
the full length of the upright stick,
from its end, or in this case 5.4 in.
The sticks may be made of straight-
grained pine, % in. square, for smalt
kites, and larger hardwood sticks, for
larger kites.
The cross stick is bent into a bow
Plan and Dtmeaaloiia (or KIM
by tying a strong cord across from
end to end. The center of the bend
should be 4*4 '". above the ends. The
bend is shown in the sketch. Connect
all four ends or points with a cord,
being careful not to pull the bend of
the cross stick down, but seeing that
it remains straight across the kite.
When this is done the frame is ready
for the cover.
The cover will require 2% sheets
of tissue paper, 20 by 30 in., which
should be pasted together as the
sketch indicates. Cut out the paper,
allowing 2 in. margin for lapping over
the cord on the frame. Place the
frame on the cover with the convex
side toward the paper and paste the
margin over the cord, allowing the
paper to bag a little to form pockets
for the air to lift the kite. The cor-
ners should be reinforced with circu-
lar pieces of paper pasted over the ends
of the sticks.
The flying cord is attached to the
points A and B of the frame. There
is no cross cord. The kite will fly at
right angles to the flying cord. It is
easily started flying from the ground
by laying it with the head toward the
operator and pulling it up into the
wind. — Contributed by Chas, B.
Damik, Cooperstown, N. Y.
c by Google
The Levitati(ni— A Mcxlem Stage Trick
This illusion has mystified thousands
of the theater-going public, in fact, it
has been the ' piece de resistance" of
many illusion acts. The ordinary
method of procedure is as follows : The
person- who is to be suspended in the
air, apparently with no support — usu-
ally a lady — is first put in a hypnotic
(?) sleep. She is placed on a couch in
the middle of the stage, and in most
cases the spot light is brought into play.
The performer then takes a position
close tc the couch and with dramatic
tion of which will be readily understood
by a glance at the accompanying illus'
trations.
The bottom of the couch, if one is
used, contains a cradle-like arrange-
ment which fits the recumbent form of
the lady and is connected to a heavy
sheet of plate glass by means of a rod,
D, Fig. 2, attached to one end, and run-
ning parallel to the side of the cradle.
When the glass is lifted, the body of
the subject is also raised, seemingly at
the will of the performer. This is ac-
lUlalMC the SubjRt In Midair
effect makes a few hypnotic passes over
the subject. She then slowly rises from
the couch until she has attained a height
varying from 4 to 5 ft above the stage,
as shown in Fig. 1. The couch is then
taken away and a hoop is passed over
the floating lady. The performer now
causes the lady to float back to the
couch or board that she may have been
resting on, after which the so-called*
hypnotic spell is withdrawn.
In spite of the claims that the illusion
owes its origin to Hindoo magic, it is
nothing more nor less than a clever
mechanical contrivance, the construc-
complished by the aid of an assistant
beneath the stage floor. The plate of
glass, E, Fig. 3, passes perpendicularly
through the stage down to a double
block and tackle. The end of the cable
is attached to a drum or windlass and
the plate glass held steady with guides
at the sides of the slot in the stage floor,
through which it passes. The winding
up of the cable naturally forces the
plate glass and cradle up, causing the
lady to rise.
Some illusionists place the lady on
a board on two ordinary trestles and
cause the board to rise with the lady
lOOglc
on it, as shown in the illustration,
thus obviating the use of heavy para-
phernalia as in the cradle attachment.
The cradle attachment is also generally
accompanied by a 2-in, iron bar, used
in the place of the plate glass, tnc i«ii~
former or operator standing at the »car
of the couch to conceal the bar as ti
comes from beneath the stage. How-
ever, the method illustrated is the one
generally used.
The solid hoop is passed over the
body in the following manner: Start
at the end, B, Fig. 2, passing the hoop
as far as C with the hoop pn the out-
side of the back horizontal rod. The
la P*uIdb ov«f tba Board '
side of the hoop toward the audience
is then turned and swung clear around
over the feet at A and entered between
the rod and board on which the lady
rests. The hoop is then carried as far
as n will go back toward the end B.
Then the side nearest the operator is
passed over the head of the body ap-
parently the second time and passed ofE
free at the feet. Thus to the closest ob-
server the impression is given that the
hoop has encircled the lady twice. The
illustrations give in detail the working
of the illusion above the stage floor.
tSo set rule is used for the tackle and
drum below the floor.
d by Google
CONTENTS
Acmlerouetcr, Simpla
Add Bunu. TTMtlDS
AeetTlens Qli Qeocrator. i.
Acetjlene Lamp, LIgbilaf .
AerattoK Water In a Bmall Tank 'i
AetoplaDC, Paper, Hov to Uake ■<
AeropJaaea, Idodel. Eqaillbrator tor
Alarm. Burclar, How to Uake 9
Alam, Callen' Approach
Alarm Oock Cblekeo Feeder
Alarm Clock to Pall Dp Fomace Draft 1
Alarm, Electric
Alarm. Blectrl<^ Door Bell and 1
Alans, Electric PIre, How to Make 4
Alarm. Electric, Tbat RInsa a Bell and Toms Od
a Lllhl a
Alarm. Electric Time *
Alarm, Fire 47,8
Aluminum Pollab *
Aluminum, Satin nnlsb on 1
Aluminum Wire, IniuLatlus B
.Ammeter, Hov to Make 40. 2
Anneallnit Ctalael Steel
Annanctator, How to Construct .
Aquarium. How to Make
Arbor, Orape, How to Build . . .
Arc Lamp, Homemade
Arc Seaichllsht, Self LlKbtlnK ■
Anna and Atuot, Imltaoon :
Part I
Part 11
Part III
Part V
Part VI
Part VII
Arma, Drip Bbleld lor
ArrDwbea4 Flint, How to Uake
Asbeatoa Table Pads, Homemade
Atblete^ Wetfbta (or. How to Uake
Atomlier. How to Uake
Anlomobtle, BoTi' Homemade ^
Automobile EugUie, Cool inz Water for
Aotomoblle, OreiilnK tbe Front Wbeela of..
Automobile Beadltghts. AdJuatlnR
Automobile. PalDtTns
Antomoblle witb Salla
Aile^Cart witbout
■abWtt I^dle. Bmersencr
Babbitt. Ladle tor Heltlnjr
Bai, Cbanginf, for Plate Holden
Bate. BewlDK. How to Uake
Ban, Paper, Pee *—
Balloon AeceniloL
Balloon. Pilot Hon .
Balloona, Paper, How to Uake
Barometer, Homemade
Barometer, Bow to Uake
Barrel Stave Hammock
Barrel Stare Sled
Bawball. PlaTtDii with a Pocket Knife .
Baiet Device tor .
1 llliia<oi
Batht
360, 8TS. 401
116
: Loop Conuectlons
, _. ..e Termlnali tor ..
Batterr. flrenet. How to Uake
Batterjr Motor, Controller and Beverae for .
Batterr Uotor. Reveralns
Battery. Non-PoIarlitnK, How to Uake
Battcrj RbeoBtat
Batterr. Small Btoraite. How to Uake
Battery Bwlleb
Batterr, Tbermo-E^eetrlc How to Uake
Batten Voltmeter
Batterr Zlnea, Old, To TTm
Bed Warmer. Electric How to Make 88S
Beeawax, Subrtltute for 120
Bell. Cracked, ReatorloK Tone to 71
Belt, Return Call, wltb One Wire 101
Bell Rlnji Register .- . SIS
Bell. Rlngins bj Toucblnx a Oaa Jet 403
Belt,^Eye1eta for 432
Eaia".'.'.'.'.'.'.'.'.'.'. 248
dnn 318
146
> HUe 231
386
187
42S
387
eere Bands 2SB
385
.V.'.'.'.'.'.'.'.Viii'.'w. 406
r 201
a Used tor 277
411
r 8
17
428
r to Uake 120
401
268
148
;;!'.;;'.;!'.;!!'.;;; 42s
337, 382
100
821
123
108
161
ka 126
82
from 280
293
ed 877
878
18
241
400
4, 202
170
8
it 170
Paper trcmi Uoder 33
.i^!^!!"!!"'*!; 400
20
temoTe 224
IM
2B6
STO
T
257
80
dake 42
18
407
to Uake 286
287
116
:e*'uakl^ic'l!"!*i 217
220
IT to Uake 326
86
320
348
18
88
8fi2
410
867
267
• 824
20S
» llaka 368
234
I Nostril 3A7
dbyGOOgIC
OablDet for Pot Comn
Oabloet for PboDoRrapb Recotde
Cabinet. MqbIc, How Io Make
CablDct. Pbonoeraph Disk Cabinet 79.
Calendar. Handy
Calliope, Steam. How to Make
Camera, Box, Repalrloe
Camera, Ejlarglns from Life In Ill,
Cameral MbHIqk Uttlitproor W'.'.'.'.'.'.'.'.Wl'.]'.'.]
Camera, Practical, for Fifty Cenin
Camp Stool, How to Mako
Camp. Tin Drlnklotr Cup (or
Camiier's Lantern. Makenlilft
Camps and How to Build Tbr^m
Camps, KeeplDK Foot! Cool la
Can Covers, Tool lor Llttloe
Caodle Sbade. How to Mak.^'
Candleatlck, How to Make 240. 2S1,
CHUdlesticb, Water
Cane Chnlra. How to
Cane In Furniture, Tlt-htenlnK
Cannon Balls, 36, Removing from Handbag
Cannon. Gaa
Cannon. How lo ^Inke
Cannon, Lead, How to Make
Cannon, Taj. To Dtscbarire l)j Electricity
Canoe. How to Make
canoe, SbIIIdk, How Io Make
Cans, Tomato. Irrlgatlnir witb
Canvas Cot. Folding. How to Make
Canvas, Waterprooflne
Carburetor Dlfflcultlea
Card Trick, Blslnji
Card Trick wtth a Tapered I>ecfc
Cardboard Spiral Turned by Heat
Cardboard Bouares, Gun for Tbrowlnic
Cardease. Lady'a. How to Make , . . ■.
Cards. Mecbaolcal Trick wItb
Carpenter's QauKe
Carpenler'8 Vise. Homemade
Carpet Swepper Wheels, New Tires tor
Cart, DoK
Cart wltbont an Aile
Catamaran. Blcvcle ;
Catamaran. Crulslne
catapult Fourth of July
Cats. Shocking Device for
Cell.^unneD
Centaur, Boys KrpresentlDjt
CenterlnE. To Make Unneeessarr
Cbaln Mode from a Match
Cbalr. Chlld'a Footrest on
Chair LeRB. Rubber Tip for
Chair. Porch Swlnr
Chair Rockers, Snfetr Tips on
Chairs, BalaneinK'on ".'.'.'.'.'.'.'.'.'.'.'.".','.'.'.'.'.'.','.'.
Cbalra. To Cane
Checker Board Puizle 180,
Cheeseboi Cover. Tea Tray
Chemicals. ProteetInK Flnsers from
Cherry Seeder
Chicken Coop. Keeping Rats from
Chickens. Drlnklns Troaeb for
Chickens. Feed Boi for
Chickens, Small, Brooder tor
Chisel. Ice
Chisel. Steel, Annealing
Chopping Board
Christmas Tree Decorations. Repairing
churn. Homemade Small
Clamp. Mngaslne. How to Make
Clamplnji a Cork
Clamps. Homemade Solderinc
■ Cleaner for Gloves
Cleaner for Whitt 'hoes
"leanlnK Brans
I'l^anlns Discolored Silver
I Ksnlni; Furniture
Clennlns. Glass. Solution
r.eaolns Jewelry
rieanlne Leather on Furniture
CleanlDE Silver
Cleaning Walls
Cleaning Woodwork
Cleats. Insulattnz. Substitute for
Clock, Klpctrlc, How to Make
Clock. Homemade Novelty
Clock. How to Clean
Clock. Novelty, for the Kitchen
Clock, Old, 0se for
Clothes Rack
Clothesline. Double. Support (i>r
Coaster, Roller, Illusion
Coaster, Trollej, How to Make
Coasters and Chair Sleighs
Cock, Three Way, tor Small Model Work . .
Co I. Jump Spark :
Co Is, Forming to Make Flexible Wire Com
Co n and Card on tbe First FInicer
Co n and Tumbler Trick
CO n, CbanclnR Button Int.i
Co D, DIsappearlDK
Co a In a Wine Glass Trlik
Co 0, MovIde under a Glas:^
Co n Purse, How to Make
Co n. aclcklna aKslnst a Wall
Coin. Htlcklni! to Wood by Vacuum
Co na. Display Hack Shows Both Sldea ■ (
Coins, Sendlne by Mall. !^rc Method of ,
Compass. Msrlner's
CotapasB Needle. Floating
Compass. Substitute for
Compressed Air Pb«nomeD<i;i
Concrete Kennel
Concrete Swimming Pool
Conservatory, Window
Controller for a Small Moiur
Cook Flsb. One Way to
Copper Bowl How to Make
Copper, Hardenlne
Copper Picture Frame. Etched, How t
Copper Trays. How to Make i
Copper Work — Corner Pieces for a Blotter-Pad. ,
Cord. Buttoned 4
Cork, Borlne Holes in
Cork. ClampJnE
Cork Extractor 3
Corks. How to Pit S
Corkscrews. Bill File Made of 3
Corner Pieces for a Blotter Pad, How to Make . .
Cot. Canvas, How to Make 1
Connter Brueb for a Shop i
Crossbow and Arrow Sling, How to ^fakp 3
Crutch, Homemade 3
Crutch Made of an Old Broom a
Crystalllxation. Instantaneoua 2
Cup and Saucer Rack. How to Make 1
Cup, Tin Drinking, lor the Camp S
Current Reverser 107. 1
Curtain Roller *
Curtain Roller Spring, Hi
Make... 414
> Ti^ten .
Darkroom, Pbotographlc, Building .
DemegnetUlng a Watch
Desk Blotting Pad
Ine Pad
Developing Boi. How t. ,
Developing Tray, Cracked Composition, To Repair S
Developing Trat Photographic 2
Dog. How to Chain
Dog's Bark. Drowning with Wal
Doga. To Drive Away
)ODr Bell and Blectrle Alarm . .
)oor Lock. Secret
)oor Opener, Electric ■
), Tin, tor
. sliding. Electric Lock for
>avetBll Joint
)ovetBll Joint Punle S
iratt Opener. Automatic 1
)rartsman. Spline for 4
>ratteman'R Ink Bottle (\>rk. Steel Pen Used In l
Irawera, Several, Locking with One Lock S
trawlng. Aid In j
Drawing Instrument — Wondergraph. How to Hake 4
Drawing. Landscape, Made Easy 4
Drill Gauge, Handy - '
Drill, Hand. How t(
Drinking Cup, —
Drinking TroUK" lur i.iiii;ei;uh
Drip Shield for the Arms
Dry Batteries. Another Way to Renen
Dry Batteries, Cheap, How to Obtain
Dry Batteries. Old. To Renew
Dry Batteries, Renewing
Dry Battery Cell, Bow to Mal..>
Duplicator for Box Cameras
Duplicator. Homemade
Basel. How to Make
Egg-Beater. How to Make
Eggshell Funnel
Eggshells, ilow to Presen-.'
izccbjGooglc
E[d«vb«tr7 HuIIer, Homemtde 3S3
Electric Alarm SH
Electric Alarm. Door Bell and 114
Electric AUrm Tbat Rlngi a Bell and Tana On
■ Lifht 887
Electric ADcatbeaU 4411
Electric Apparatus — Atnoielpr. How to Make. .49. 203
Electric ApparatUH— AnanDClator. Komemade.,.. D7
Electric Apparatna— Annunciator. How to Con-
struct 416
Electric ApparatuB — Batteries, Connecting Up to
Give Anj VoltBRC 93
Electric Apparatus— Bat tfry Rheoatat 80
Electric Apparatus— Batterj Vollmeler 153
Electric Apparatua— Bell. Return Call, with One
Wire .,.....; lol
Electric Apparatus— <:BtH, To Shock 411
Electric Apparatua— Cell. Danlell 2S3
Electric Apparatua — Circuit Breaker (or Induc-
tion Colia 101
Electric Apparataa— Controller and Reverie for
Balterj Motor 72
electric Apparatua — CoutrollET tor a Small Motor i2
Electric Apparatua— Current Rpi-eraer 107. Ill
Electric Apparatua — TiBlTRnometrr. Taniient .... l.to
Electric Apparatus — Induction Coll. How to Make 138
Electric Apparatus — ladiictlon rolls. Mercury
Make and Break Connection for t . . 181
Electric Apparatus — Jump Spark Coll 113
Electric Apparatus — Medical Induction Coll, How
to Make 83
Electric Apparatus — Motor, Single Phaae Induc-
tion .17 124
Electric Apparatns — Motors, Direct Conuecled
Beverae for 80
Electric Apparatus — Bheoitat, Lead Pencil 14,^
Electric Apparatus — HbocklDg Mactiloe 13D
Electric Apparatns — Tbermo Battery, How to
. Make Hn
Electric Apparataa — Ttiermostat. Small 4ri.1
Electric Apparatua — Transrocmer, llO-Volt .... 430
Electric Apparatua— Vol tam meter, pocket .t'to
Electric Batter; MasUKe. Ilomemade 144
Electric Bed Warmer. Homemade H3S
Electric Bell, Relar Made trom 04
Electric Blue LUbt Experiment 41
Electric Clock, Homemade 288
Electric CharKea, Detector (or 2''1
Electric Door Opener 78
Electric Engine 2'<t
Electric Experiment, IntercBtlng ;tT7
Electric Experiment, Reveralng Switch for '.'2
Electric Fire Alarm, How to Make 430
Electric Fumace Regulator. How to Hake 3H8
Electric Fumace. Small. How to Hake 48
Electric Heat ReKulalor. Automatic 344
'Electric Horn. How to Hake 21B
Electric Hrdrogen Oenerator M
Electric Illnalon Box 133
Electric Indicator (or a Wind Vane 348
Electric Lamp Experiment 5S, 120. 131
Electric Lamp Sockets. Miniature, How to Hake 270
Electric Lamps, Miniature 434
Electric Lamps. TeetluE 314
Electric Light Circuit. Eiperlnients with BO
Electric LlEbtlng, Miniature , 104
Electric Llghta. Turned On and Off (rom DK-
(ercnt Ptacea 205
Electric Lock 60. 110
Electric Lock for Slldlus Door 86
Electric t,ock. Simple 80
Electric LocomollTc, Miniature, How to Make . . 16.1
Electric Hotor 401
Electric Uotor. Novel 3es
Electric Motor. Small 214. 222. 84S
Electric Pendant Switch. How to Make 310
Electric Piano, How to Hake 247
Electric Plug. Homemade 430
Electric Postcard Projector 190
Electric Rat Eitermlnatar 3.18
Electric Shock. To Olve While Shaking Hands.. 133
Electric Shocker (or Garbage Cans M
Electric Stove. Homemade 31. 273
Electric Tennlnala. Varnish for 37«
Electric Time Alarm 433
Rleetrlc Toaster. How to Make -t7
Electric Walklne Stick 413
Electric Wlrea. Flexible, Adjuster (or aS8
Electrlcltj, To Discharge Toy Cannon by 59
Electricity, To Explode Powder with 53
Electricity, Writing with 74
Elect rodeiMBitlOD, Copies Made from wax Molds by
Electrolytic Rectifier, How to Make
Electromagnet, Floating
Electroplating, Easy Method of
Electroscope, How to Hake
Electrostatic Illumination
Emery Wheel Arbors, Waahers (or
Enameling a Bicycle Frame
Engine, Electric
Engine, (iaaollne. Iluw lo Make
EnglDe. Mode) Steam
Engine, Steam. Made from Gaa I'ipe and Fittings
Engine. Toy Steam. How to Make
Engine. Turbine, How to Make
Equatorial, Homemade 204,
Equlllbrator for Model Aeroplanea
Experiment, Center of Gravity
Experiment. Electric
Experiment, Electric Blue Light
Experiment. Meat and Expansion
Experiment, Phonograph
Experiment, Telephone
Experiment with a Vacuum
Experiment with Colored Electric Lampa
Experiment witb Heat
Experiment with iQcandcacent Lamp
Experiment witb Two Foot Rule and Hammer
Experiment. X-Ray
Experlmenta. Electric Lamp 120.
Experiments, Electrical. Beveralng Switch for. . .
Experiments with a Mirror
Experlmenta with Electric Llgbt Circuit .......
Eye. Blind Spot In. To Find
Eyeglasses, Holding Firm
ran. Wooden. How to Hake
Faucet Used aa an Emergency Plug
Feed Box (or Chickens
File. Chalking
File, Sharpening Skates with
File Soft MetalB, How to :
Film Waahing Trough
Fllma. Drying
Fllmii. Frame (or Dryln/r
Filter, Simple and Effectrve
Filtering witb a Small Funnel
Finger Mathematics
Finger. Removing Tight Fitting Ring trom.
Flngera. Protecting from Chemicals
Fire Alarm, Cheap
Fire Alarm. Electric, How to Make
Fire Alarm. Simple. How to Make
Fire ExtlnguUtier. Homemade
Fire. Making with the Aid of Ice
Fire Screen. Row to Make ,
Fire Screen, Leaded Olaas
Flah Bait
Fish, One Way to Cook
Fishhook Box
Fishing through Ice. Signals for 10, 281,
Flag. Braaa, How to Hake
Flatlron Rest
Filer, Toy. Bow to Make
Flint Arrowhead, How to Hake
Floor Polisher, Homemade
Floor Sifter
Flower, Magic QrowInK
Flower Pot Stand
Flower Pota, Clay, Used (or Bird Houses
- - — ■ "bel( (or
)(
a Washer on .
How to WeavB
tfake
Ordinary Chair
PiaHtiil". '.'.'.
. ..„. jTen"slrt'M':
Fountain Pen Used aa a Ruler
Fonntaln Pena, Leaking, Bemedy for .
Frame, Braas. In RepoussA
Frost, To Keep Windows Free from . . .
Fuming of Oak
Punnel, Eggshell
Punnet, Filtering witb
. 2T8
., 380
I, 390
. 453
. 229
. 4'.*7
. OB
. 4.1D
'. 319
. 300
196
l:V V^IV^.'V.'VIV-
PaDMl. GlBM 412
F^DDel, Honi Used as 7
Fonaet, Temporkr; 2T6
FiiEUiel. Ventlnjc a 318
F^irnlcc, BraH. Bow to Build US
FutDBCc, Door Opener for S3
Famacc Draft, Alarm Clock to Pall Op lOT
Furnace Draft Opener, Automatic 102
Pnrnacc, Electric. How to Make 48
Furnace Reralator, Electric, How to Make 38S
Funiltnre, Cleaning 185
rurnltnre. Cleaning Leather on IS
Furniture, Drawing of 2S4
Fnmlture — Librarr Set In P;ro-CBrTlDX 407
Fumttnre — Ruitle Seat 441
Fnmlture — Table. Ulsalon Ltbratr, How to Make 141
Farnlture, Tightening Cane Is 230
ttalTBnometer, Tangent, Bow to Hake ISO
OalTanoacope, How to Make 68
Game — Bkaeball. Plaj^lng with « Pocket Knife... 2S0
Oame-^Bottle Puahera 40»
Oame, Cblneae Outdoor 176
Game Played on the tee 216
Oarbaee Can, Keeping Anlmala Awai from 04
aai Cannon 197
Qai Jet. Ringing a Bell b; Toacbing 403
Qa« Jet, Shade Bolder Bracket for 419
Qaa, To Light without Matches S94
Oaaallne Burner for Model Work S5
aaaollne Engine. Homemade 207
Qauge, Carpenter's 19
aange, Drill 2B2
aan», Rain, How to Make 64
Oaontieti on Olorea 266
Oear Catting Attachment for Small Lathes 167
Gear for Model Work 225
Gear Wheela, Small, To Hake wltbont a Latbe.. 46
Qelsaler Tube, How to Hake 154
Olasa Blowing and Forming 420
aiaas Cleaning Solution 31
Glass. ESect of Radium op 116
OlasR, Rmergene; Magnlfrlog SOS
OlBBs, Fire Screen. Leaded SSS
GIbm Funnel. Emergency 412
ItaaB, Ground, ImltatlQK 294
Glass, Ground. SubBtllule 2S5
OlDBB Letters. Removing from Windows 310
GlaM.^UagDltylng, How to Make SST
Olaai, Photograph Prlnta Mounted oo 231
Glasa Plates. Pferclng with a Spark Coll 426
GlaEi Tube, To Make a Bulb on 324
Glider. How to Make 171
GloTes, Cleaner .for 302
GloreB, Gauntlets on 26S
Gold I,eaf. Corerlnjr Signals with 189
Gouge Ueed as a Bit 411
Gramophone Records. Cracked, Bepalrlng 24
Grape Arbor How to Build 73
Gravity Batteries, Why Fall 115
Gravity Eiperlment 302
Grease Stains, Removing from Book 230
Grease. To Remove from Machinery 216
Oreaslng tbe Front Wheels of an Automobile . . . 820
GrIllB, Sope. How to Make 2TT
Ground Glass, tmltallug 294
Guitar That Is Easy to Hake 330
Gummed Paper. Bubatltute for 31S
GUD Barrels. Bnrstlne of 304
Gun. Toy. for Throwing Csrdboard BQuaret £68
Gymnasium, Outdoor :
Part I—The Horttonta! Bar 208
Part II — Parallel Bars 301
Part ril— Tbe Horse 803
KBcksaw Blade, Knife Made from 293
Hammock, Barrel Stave 75
Hammock, How to Make 410
Hand Car Made of Pipe and Fittings 440
nd. Magic Spirit 2
Handbag, Ladles', How to Make 213
Handbag, Removing 36 Caooon Balls from 256
Handkerchief Mended after Being Cut and Tom. . 108
Handkerchief Trick. Vanlsblng 319
Handle. Opening, for a Stamp Pad 23
Handle, Tying Paper Bag to Make 10
Hanger, Troasera. How to Hake 143. 3S9
Hangers, Tool 453
Hardening Copper 206
Harmonograpb. Line 84
Bat. To Hang on a Lead Pencil 133
Hatiilns, Sealing wax, How to Make
Hats. Felt, Packing Cut from
Heat and Expansion
Heat, Cardboard Spiral Turned by
Beat, Experiment witb
Heat Regulator, Electric
Hectograph, Homemade ..2-
Hinge, Broom Holder Made ot
Hinges, Imitation Fancy Wings on
Hinges, Leather, Uelal Covering for
Hole, Square, How to Bore
Hole, Threaded. Sizing
Holea, Boring la Cork
Holes, Circular, Cutting In Thin Sheet Hetal .
Holes, DtlTerent Sbaped, Fitting Plug In
Horn, Electric. How to Make
Horn, Paper Phonograph, Bow to Make
Hom Used aa PuDDel
Horsepower of Small Motora, Finding
Bouse, Building In a Tree Top
Hydrogen Generator, Constant Pressure .
Hydroi,.
, Small Electrical .
]ce Boat, Bow to Build 367
ca Boating 882
ce. Bottle Pushing on 409
! Chisel. Handy 81
>, Fish Signal tor Flablng tbrougb lO
>, Fishing tbrougb 281
,;, Game Played on 21«
ce. Making a Fire with tbe Aid of 338
ce, Merry-Go-Round Wblrl on 380
Ice, Pecnllar Properties of lOO
Ice, Signals for Fishing tbroogfa 380
Ice Skates. Hollow Grinding 231
Ice Yacht. How to Bnlld SOT
Illusion, Balloon Aacenslon 300
Illusion Box, Electric 139
Illusion for Window Attraction 339
ninslon. Miniature "Pepper's Ghoat" 52
Illuilon, Roller Coaster 20S
IlluBlon, Rolling npbUI S6t
Illusions. Optical 74, 99. ISO 183, 206, 348. 864
Incandescent Lamp, Biperlment with 427
Indian Clubs, Wetgbting 818
Indicator. Electric, for a Wind Tane 348
Indnctlon Coll, How to Hake 138
Induction Coll. Lighting an Incandescent Lamp
Induction CoIL Smal'rif'ed'lcalVBow'to Hake!;!! St
Indnctlon Colls. Circuit Breaker for 101
Induction Colts. Hercury Hake and Break Con-
nections for 187
Induction Motor, Single Pbaae, How to Make . . . 124
Ink Bottle Cork. Sleet Pen Daed In 117
Ink SpotB, Removing 191
Inkstand, Ornamental Metal 315
Insulating Alnmlnnm Wire 306
Insulating Cleata, Bubstltute for .H4B
Insnlatlon, Bemovlng from Wire 213
Interrupter, How to Make Bl
Iodine Stalna. Removing 42S
Iron Castings, Putt; for 26S
Iron Flower Stand, Ornamental 858
Iron Pollaber 286
Iron Rest for an Ironing Board 288
Iron Work, Ornamental. Easy Designs Id 370
Ironing Bosrd Stand. Bow to Make 17, 429
Irrigating with Tomato Cans 450
Jelly Making SUnd 300
Jewelry, How to Clean 358
Jig Saw Puaile, Photograpblc 861
Joint. Dovetail 3»
Jump Spark Coll. Hovr to Hake 118
Xennel, Concrete 28
Kenuel Door. Automatic Closing 82
Kerosene. Used In Polishing Metals 8M
Kettle. Bpoonbolder on 24
Kettles, Spoon Rest tor 304
Key Forma, Preserving 4S4
Key. Removing from a Double String 1T9
Kiln. Pottery 62
Kitchen. Novelty Clock for 880
Kitchen Cteosll — Baking Pan IS
Kitchen Utensil— Cherry Seeder 2S
ly v^<v..'V_'Vl^_
Kltebeo Utensil — Floor Sitter
Kitchen trtensll for RemoflDs Plet train Pana .
Kltebeo DteuHll — Homemade TaBater .
Kltcben Dtenall— Hot DIah Holder .
Kltebeo menall— Hot Plat* LUter .
Kllchea Uleiull — Ladle and Strainer, Combined S
Kitchen Utenall— Pot Cover OoBet
Kltcben Ctenill— Pot Coren, Homemade 2
Kitchen Utenall — Bi
Utenall — Spoon Rest (or Kettles i
Utenall— tool for LlrCInK Can Coeen .
Kltcben Dtenall — Vegetable Sllcer
Kite Balaoclne Strlnea. Rubber Bai
Kite. Box. How to Uske
Kite, Cblneae. How to Make and :
Kite Reel. Homemade
Kite, Tallleis
KItee of HanrKlndB and How to U
Knife Blade, Worn, Repairing
Knife Made from Hacksaw Blade
;. Magic
Snot Trick
Knot. TjiDg lor Football
&adle and Strainer, Combined .
Ladle. Babbitt
Ladle for Melting Babbitt
Lamp. Acetjiene, Lighting .....
t^mp, Flaali, How t
Lamp, Ilomemaile Put^ci
Lamp, Incandeacent, Experiment witl
Lamp, iDcindncent, Lighting wltb ■
Coll
Make .
Lamp Stand and Bhade, How U
Lampa, Electric. Teatlng
Lampa, Miniature Blectrle
Lampa. To Make Barn Brlghtlr
Kntem. Camper* MakeahlCt
ntem, Dsrliroom, How to Make
Lantern. Homemnde
Lantern, Magic. How to Hake
Lantern, Magic. Vslut Sun's Ligbt In .
Lantern Slide Masks. Cutting .
Lantern Slides, Blueprint, How
Lantern Slides, How to Make.
Untem Slides, Tinted. How to Hake
Latbe, Beneb, Hade of Pipe Flttinga
Latbe, How to Make
Lalbe, Making Qear Wbeels without
I«tbe. Wood Turning, To Make Out of s
a Make .
•atbe WoA. Callperlne
.atbe*. Small. Gear Cuttina Attachment far ....
■anndrr Device — Clotbea Rack
■aoodrr Device — Clotbeallne, Double, Support for
.anndrT Device — Iron Rest
•anndry Device — Iron Rett for an Ironing Board
sundry Device — Ironlnic Board Stand IT.
jaundry Device — Sad Iron rolluhe r
Laundry Device— -Waah board Holder
.avatorlea, Sleeve Holdera for
,ead Cannon. How to Make
Lead. Melting iu Tliaue Paper
,ead Pencil Rheostat. How to Make
«al. Photograph Printed on
,eatber Cardcaae. How to Make
.eatber lllngea. Metal Coverlogs for
Leather on Fornltnre. Cleaning . . .'
Leather. Softening
rather fipcctacle Caae. How to Make
weather, Table Mat of. How to Make
,eather Work. Arts and Cratta
.etter Holder of Pierced MeUl
ottering on a Dark Oronnd. Paint for
.etterlog with a Carpenter's Pencil
icttera. Oiasa. Removing from Wlndowa
.evItatloD — Modem Stage Trick
.Ibrary Set In Prro-Carvlng
iile BDoy. How to Make
Jle Preeerver, Homemade
Light Qaa witboat Matebta, To
Lightning, Photographing 184, 1
Lights, TurnlQe On and OS from any Number of
Llnoienm, How to Repair
Llqnlda — Splaahee, Study of
Lock. Automatic
Lock, Electric
Lock, Electric, for a Sliding Door .
Lock, Homemade Pneumatic
Lock, Lobrlcatlng .
SSZ Lock, Becre
Lock, Trunk, How to Attach
Lock, Window
Locking Several Drawers with One Lock
Locomotive. Miniature Electric, How to Hake. .
Log, To Croaa Stream on
Lubricant for Wood Screwa
Lubricate Sheet Metal. To
Lubricating a Lock
Machinery, To Remove Orelte from .
Msgaslne Binder, To Make
Magailna Clamp. How to Hake
Magaslne, How to Bind
Magic Box Escape
Magic — Electric I llusloD Box
Magic Lantern. Homemade
Magic. Old Time .
167,
_._. _._, _ _, _._. _ J, 294, 24*. 2S1, 2M, 4
Hagle, Parlor, tor Winter Evenings
Magic Spirit Hand
Magic— Violin, Making Spirits Play 2
Magnet for the Work Basket 2
Magnifying Glass, Emergency S
^— ,', Filler for _
Hall Pbotographs, How to 8
Hall. Bending Coins by S
Uarble. Rollfng 1
Massage, Electric Baltery 1
Hat, Wreatllng 8
Match. Cliain Idade from S
Match Holder of Wood and Uetal. How to Make. . 2
Match, How to Relight 4
Hatch Safe. Homemade 1
Hathematica, Finger I
Hatlresaea, Handling
Measuring the Height of a Tree S
Medical Induction Colt. How to Hake
Uercury Make and Break Connections (or Indac-
tlon Colls 1
Uerry-Oo- Round. How ti
298 Metal, Melting In
Hetal. Thin Sheet. Cutting Circular Holes In .
Hetai Whisk Broom Holder
MetalB, Soft. How to File
Metals. Dae of Kerosene In Pollablog
S88 Microscope, Homemade
I8S Microscope, Small, How to Hake
145 Microscope without a Lens
862 Minnow Trap. How to Make
SSO Mirror, Experiments with
41 Model Aproplanes. Equlllbrator for
13 Model Hteam Engine
140 Model Steamboat
228 Model Work, Gasoline Burner tor
286 Model Work. Gear for
168 Model Work, Three Way Cock for
204 Mold, Removing from Wallpaper
ITO Monoplane Weather Vane
SOD Moon. New. Photographing
819 Motor, Battery, Controller and Reverse for . . .
4S9 Motor, Battery, Reveraing
407 Motor, Electric 214. S4a, 8
431 Motor, Reversing
4 Motor, Single Phase Induction
S94 Motor, Small, Controller for
I:v v^<v.^v_'VI\
ICotor. aniKll. How to Uake 428
Uoior, Water 66. 811
Hatorcfcle Drives Waablng Uncblne 219
Hotors, Small. FlDdlOK HOraepoirer or 338
Mouse Trap 112, IftS, 293. 39S. 4B0
MuBlc Cabinet, Iloir to Make TT
Uuilc. Funiaee, To TraDBlnlt to a Dlnaoce 107
Cracked,
rail Holes. Pi Mini; .
85
t Cracking Block
iiute, Tlfchtenlne
Nutshell Fbotograpli Kovelt; .
Oak. rumlnK of
Optical lllualoD
Optical Top ...
OrnameDtB, CbrlBtmaa Tree, Repairing
PbotDgrapbj — Darkroom Lantern. Bow to Hake
PbotograpbT — Darlcroom. Small. Balldlnc
Pbotograpbr — Dereloplng Box, How to Hake. . . .
PbotograpliT— Developing Tray
Pbotograpb J— Developing Tra;
Pbotograpby — Duplicator ror Boi Cameraa 3
Pttoti^apbj— Gnlarglng from Life Id tbe Cameim
Ill, 1
Pbotograpbj— Film Negatives. How to Keep.... 1
Pbotograpbf — 'Film Washing Trougb !
Fbotography — Fllma. Drjlng 4
Pbotograpby— Films. Frame for Drying 4
Photograph J— Green Prlots, Paper That Makes 1
PhotOKntpby — Kits for tbe Camera I
PbotORTBpbj — Nejtatlve Wasber. Adjustable. How
'S
Make .
packing Cut from Felt Rats
Paint Brushes, Care of
Paiat. Cause of Bagging
Paint for Lettering on a Dark Gronod. .
Paint, Old. Removing
Paint. Healing Up
Fainting an Automobile
Fainting Over Putfy
Painting Yellow Pine
Faints. To Prevent from Crawling
Paints— Water Color Bor
Pan. Baking
Paper Aeroplane. How to Make
Paper Bag. T;1ng to Make a Handle
Paper Bags, Use for
Paper Boat, How to Make
Paper. Gummed, HuhatUute for
Paper, Smoothing after EraalnB
Paper. To Remove from Stamps
Paper under an Inverted Bottle, Wltbdrawlng. .
130,163,206,848,364 Pbotograpbj — Pictures, Four, on One Plate
69 Pbotograpbr — Printing Frame Stand 1
11 Pbotograpbr — Prints, Overexposed Developing,
SOT Photography — Proofs, Making before NegatlTe
ad Dart
. Hov ■
Pen, Fonntsln. Ordinary Pen used as 190,
Pen, Fountalo, Used as a Ruler
Pen, Sleel, Used In Ink Bottle Cork
Pencil. Carpenler's, Lettering wltb
Pens, Corrosion of. Preventing
Pens. Leaking Fountain. Remedj' for
■■ Pepper's Ohost" Illusion. Miniature
Percolator. Plant Food
Perfume Making OutBt
Phoneidoacope
Fbonograpb Experiment
Fhonograpb. Homemade
phonograph Horn,' Paper, How to Make
pbonoEtaph Music. To Transmit to a Distance..
PhoQORTBph Hecord Cabinet 79,
Phonograph Reproducer, Believing Weight of
Pbonograpb. Thorns Used as Needlea on ■
Pbotograpb Letters. Spelling Names with 1
Pbotoirraph Mounts. Rough Alligator i
Photograph Novelly. Nutshell
PbotoKrapb of a Clown Face ]
PhotoBrapb Fnetcords. Drying t
Photograph Print Washing Tank 1
Photo^Tspb Printed on a Leaf !
Photograph Prints, Drying Flat
Pbolotnaph Prlntn. Drying Without Curling <
Photngrapb Prints, Mounting on Glass :
Photograph Prints, Hiretehcr for Drvihg I
Photographic JIg-Saw Puiile I
Photographing a Sinn In a Bottle
Photonrnpblng Lightning 124, 1
Photographing the New Moon 1
Photographing tbe North Star '
Photographs, Freak, Making of 110. •
Photographs, How to Mall ;
Photographs in Relief Easily Made '
Photographs, Mounting in Planter Plaques :
Photographs on Watch D1^' \ Making !
rhotographs. To Print on Bilk ;
Photography — Background Frame, Take Down.
" — '0 Make
. 357 Piano.
Platfnun
Pbolography — Tripod Holder,
"■--- Electric, How to Moke ,
Frame. Etched Copper, How
Pin Ball, How to Make
Pine. Yellow, Palollng
Pipe and Fittings, Hand Car Made ot
Pipe and Flttlags, Hand Sled Made of...
Pipe Fittings. Bench Lathe Made of
Pipe Fittings, Uses for
Pipe. Gaa. and Fittlnga, Steam Engine
Pipe Rack. Bent Iron
Planing OctagOQal Wood Pieces. Block U
Plant Pood Percolator
rianues. Photo Silhouette Brass
Plaques, Piaster; Mounting Photos In
. Plaster of Paris, How to Mli
er. Porous, Removing
Plate Lifter.
Plug, ~
Plug.
How to Make
ii-v. FaiicPt Used as
: Shaped Holei
Pocket „
Pockets for Spools ot Thread..
Polish, Aluminum
Polish for Nickel
'oltsblng Clotbs for Sl'vor. .
•ollshing Flat Bnrfaces .
"-■■-■■•-T Mef-'- " •
Portfolio" rfo,
Portieres, Japanese. How to Hake..
' — -aer. How to Make
ijector, Electric
t Covers, Homei
fottery Kiln, Hoir
Poultry, Feed Box
for ,
Poultry Feeder,
Powder, to Explode with Electricity..
Propelling Vehicle, How to Make
Pulley, Grooved, Made from Sbeet Tin
Pump. Rotary, How to Make
Puneh, Piercing, for Brass
Puncblng Bag Platform, Adjustable..
Punt. Homemade
Purse, Coin. How to Make
Putty. Blacking
Putty for Iron Caatlnga
Putty Grinder
Putty, Painting over
Putty, To Preserve
Pnuie, Checker Board
PiiEiie. Dovetail Joint
PnzEle, Photographic Jig Saw
I:V V^JV^.'V.'VIV^
runle. Wire 378
I'Tro-CarrlDS. Ubrary Hri In 40T
Quarti Electrode* L's«d In REcelrlac n'lreleas
Uangta 110
Querl, Verutlle 28
UutltlDg Framea, Folding 2S8
SabMI Trap, Homsmade 233
KabMt Trap, Beir Setting. Iloir to Make 158
RabbltR, Trap ror !tKi
Itark. BfDt Iron Pipe 305
lUck, Clotbea 14
Rack, Cup and 8hu«t Wa
Rack tor Dl«pla;lDS CoIdh 220
Rack. Postcard 26
Back, Shoe 148
Radium AlTecta GIhbh 116
Kaln Gauge, How to Make 64
Hat Eitpnnlnalor, Electric 3.1S
Rat Traps 200. a».1
Rata and Mice, Kllllnu 203
Rata, Keeping from a Ctilrhen Coop 3.12
Rar Filter, Balietltute for 120
llwl. Kite 136
Rfia; Made from an Electric Bell M
Rbeoatat. Batterj 80, 44S
Rheoalat Lead Pencil, Ilo*r to Make 14S
Rbeoatat. Waler 78
Rbeoatat. Water, How tn Make 4.t
Ring. Fin aer. How to Make 30
Ring. Tight Fitting. RemoTlng (rom Finger 3«l
Rolle- Coaster lllu-'— ■"'
Roller Skates, H<
Rope Grills, How .. _
Rubber Bands In Kite Balandng SIrhiga
Rubber atamps. How to Make
Rubber Tip for Chair Le«»
Rule and Hammer. Eiperlment witb
Ruler. Fountain Fen Uiied as
■ark Trick
Sail, To AtUcb to a Bicycle
Rallamobll«, How to Make 826,
tUlls, Boat. RerolTlng a n'beel wttb
Kails for Skaters ■
salad Drewlng, Aid Id MIiIde
Sandpaper, To Keep from Hllpplnit
»av, Bra<^et. How to Make
Saw. Homemade Scroll
Xawlng Bbeet Metal
Sclssora, RemoTlng from a Card
Sclaaoia, Sbarpenlnft
Nronee, How to Make
Beoop, Bhot
Screen, Fire, How to Make
Screw, Tightening with Lpad
Screws, Inserting In Hardwood
Screws. Wood. Lubricant for
Sealing Wax Bent Wblle Cold
Healing Wax Halplns. How to Make
Seals. Clear Wax ImpreaaloTiB from
Searchlight, Self Lighting Arc
Searchlight, Small. How to Make
Seat. Ruatlc
Settee. Homemade
Sewing Bag, How to Make
Sewing Uacblne, Old H'ood Turning Lathe Made
Out o(
Screw. To Hold on a Screwdriver
Scroll Saw. Homemade
Shade. Candle. How lo Make
Shade. Fastening to a Holler
Shade Holder Bracket for a Oai Jet
KhHTlng Hug, Travelpr'a
Shelf Arraugement, Convcnlpnt
Shelf. Mlaalon Bracket
Shell. Turn Down, for a Small Space
Shelf. Window, for Flower Pots
Sbellac Onm. DlasolTlng
Shocking Machine, Homemade
Shoe Horn, Bubatltnte
Rbo« Rack. Uomenade
Shoe Scraper
Shoe*. Skating, How to ilake
SbOM, WHlte. Heaner (or
Shoestring Watch Fob, How to Weave
Shot Scoop
Shower Bath. Homemade
Hlgnala, Corerliig with Gold t.eaf
BIgnala for FUhlog Through Ice tO.
Silhouette Brass Plaqnea, Making 2
Silhouettes. How to Hake
Silk. To Print Pbotograpbs on 3
Sllrer, Cleaning 305, 3
SIlTer I'laliog OulBt. Smalt. To Make 3>
Sliver, Foltablng Cloths for
Sink or Bathtub Stopper, Substitute 4
Slslng a Threaded Hole 2
Skate Sharpener. Pocket. How to Make 1
Skater. Winged 3
Skates. Ice, Hollow Grladlng 2
Skatea. Roller, How to Make S
Skates, Sharpening with a File 3
Skating Sboes. How to Make I
SW, [forwegUn 8
SkldooSkldee Trick. BcleatlHr Kiplanatlon of.. 1
Bkla and Skl-ToboEsanB, Making
Sled, Barrel Stave 3
filed. Bicycle I
Sled, BIcjcle Coasting. Haw to Make 2
Sled. Hand, Made of I'Ipe and Fittings X
Sled, Toboggan. How lo Hake 44. :i
Bled, Yankee 4
Sleds. Coaster, Rocker Blockn on 2
Sleeve Bands. Bicycle Trouscr Ouards as 2
Sleeve Holders for Ij^vatorleH
Sleigh, Cbalr 8
Sleigh. Running 3
Sling. Crossbow and Arrow. How to Hake 3
Snow Honae. Eskimo. How to Make
BnowBboes. Homemade
Solder with Low Melting Point 4
Soldering Clampa. Homemade 1
Soldering for the Amateur
Soldering Tool. Emergency
Spark Coll. Plerdng Glass Plates with 4
SpecUcle Case. Leather, How to Make 2
Spit Turned by Water Power 1
Splashes. Study of 1
Spline for Draftsman 4
Spoon Rest for Kettles 24. 3
Sport — Skis and Ski-Toboggans, Making
Sports, Winter, Devices of 3
Spring Board for Swimmers 2
Spring, Curtain Roller. How to Tighten
Sprocket Wheels. Bmall. To Make
Sbge. Mtnlature, How to Make 1
Rtarns, Iodine. Removing 4
Stains on Book Leaves. Itemovlng
Stamp Pad. Handle for Opening
Stamps. To Remove Paper from 2
Star, North, Photograpblbg 4
Static Uacblne, How to Make 1
Steam Calliope, How to Mak)' 4
Sleam Engine Made from Gas Pipe and Ftttlnga 1
Bteam Engine, Model
Sleam Engine. Toy, How to Make
Steam Turbine. Homemade
Steamboat Model. Simple 2
Steel. Chisel. Annealing :i
Steering Wheel, Heated *
stereograph. Prlndples o( 1
Stick Pin, How to Make 1
Still. Homemade 4
Still, Simple, How to Make 1
Stool, Camp, How to Make 2
Storage Battery, Small. How to Make I
Stove, Electric. How to Make 31, 2
Stove Polish 133. 2
Stovepipe, Cleaner for 2
Btovea, aeanlng 1
Strainer and Ladle. Combined... 3
Stream. Crossing on a Log _
Street Car Line, tmltallon. How to Build 9
SuDdtaL How to Lay Oat 2
Sunlight. Using In Magic Lantern 2
Swimmers, BprUg Board foe 2
Swimming Pool. Concrete 1
Swing and Taming Rings ComUned 2
Swing Chair, Porch 1
Swing, Homemade Round i
Swing, MercT-no-Ronnd. How to Make I
Swing Seat. Child's Homemade i
Switch. Automatic Time
Switch, Battery ,
Switch. Electric Pendant. Bow to Make S
Switch, Beterslng for Electrical Experlmeola. , .
Switch, Simple, (or Reversing a Current 1
Table, Lifting '. „
Table Mat o( Leather. How to Make i
l:v v^JV.^v_'Vl^_
TabTe. UIbbiuu Lthrary. Bow to Hftkc 141
Table Fads. AsbestoB 212
Talklns Uacblna Reprodneer, B«ll«TbiK Welgbt
of 2*S
Tank, Small, Aerating Water In 211
TaTBct. Illuminated 261
TarnlBh, RemoTlne 17
Tea Tray, CheeBeboi Cover 18
T«eter Board. Revolving 29T
Telecrapb and Telepbone Line, Combination 332
Telegraph Codes 422
Telegraph Inatrament and Buiier, How to Hake 8S4
Telegraph Key and Sounder, How to Make TO
Telegrapb Key, Homemade 21,288
Telegraph Line, One Wire 78
Telegraph. Line, Simple Open Clrcalt 69
Telephone and Telegraph Line, Combination..., 832
Telephone Eiperlment 137
Telephone Receiver. Homemade OS, 303
Telephone. Receiving Wlrelera Telegraph Mes-
sages with 02
Telephone, Singing 76
Telephone TrauBmltter, Homeniade 898
Telephone, Wireless. How to Hake 432
Telescope, How to Make 108
Telescope Stand and Bolder 218
Telescope. Water, How to Hake 410
Tent. Bell. How to Hake 190
Tent. Lawn, Qnlckly Hade 398
Tenta. Weatherprootlng tor 889
Thermo Battery, How to Hake S9
Thermo-BIectrlc Battery, How to Hake 140
Thermometer, Air 152
Thermometer Back In Etched Copper, To Make. 248
Thermostat. Small. How to Constrnct 455
Thorns Used as Needles In a Phonograph 4S3
Thread, Cutting Indlde Olass Bottle 179
Thread Spools. Pockets (or 18
Time Alarm. Electric 433
Time Switch. Automatic 80
Tin. Sheet, Grooved Polley Hade from 412
Tinware. Ruslproof 847
Tire Repair, Emergency 33
Toaster. Electric. How to Make 37
Toaster, Homemade 130
Toboggan Sled. How to Hake .44, 334
Tobc^gana and Skis, Maklns 8
Tool, Cutting Point of 278
Tool (or Lllfling Can Coveni 392
Tool Hangers 4D8
Tool Soldering 28
Top, Xustrian 12
Top. Optical 09
Toy, Child's Rolling. How to Hake 224
Toy Darts and Parachutes SS2
Toy Filer, How to Make 420
Toy — Ski doo-Sk Idee. Sclentlflc Explanation of.. 102
Trailer for a Bicycle 807
Traustormer. llO-Volt, How to Make 439
Trap tor RabbltB, Rats and Mice, How to Hake 305
Trap lor Small Animals 82
Trap, Minnow, Haw to Hake 300
Trap. House 112, 19S, 430
Trap, Rabbit 233
Trap, Rat 2ffO
Trap, Selt Betting. How to Hake 168
Trays. Copper, How to Hake 180
Tree. Heasiirlng the Hel^t of 376
Tree Top. Building House In 140
Trees. Burning InscHptlonB on 4S
Trick— Balancing on Chalni 181
THck— Bottle. DMng 831
THck, Buttonhole 234
Trick— Cannon Rails, 86. Bemoving from Hand-
bag 286
Trick. Card, with Tapered fleck 70
Irlek. Coin and Card on the First Finger 1TB
Trick. Coin and Tumbler 878
Irtrk— Coin. Changing Into ft Button... 234
vlck — Cain, Disappearing 176, 103
r«* — Coin, UovlDg Under a Glass 214
iHek— Coin, Sticking against Wall 178
Trlck~Colns, Droppl&f In a Glass Pull of Water 231
Trick — ColoB, Uaklng Stick to Wood 287
Trick— Cord, Buttoned 427
Trick— Electric Illusion Box ISS
Trick— Electric Shock, To Give Wbtle Shaking
Hands 1^
Ttlch— Flowera, Growing 2*4
Trick— Forks. Balancing on a Pin Bead 42T
Trick — Bandkerebiet Hended after Being Cut anlt '
Trick — Hat.' To Hane an a Laid Pencil 1
Trick — Key, Removing from a Donble String.... 1
Trick, Knot 1'
Trick- Knot, Magic I
Trick— Light. Invlslbte 2!
Trick — Magic Box Escape
Trick— Magic Spirit Hand
Trick— Marble. Rolilog 1:
Trick. Uechanlcal, with Cards i
Trick — Miniature "Pepper's Obosf HInslon
Trick— Optical Illuslans
Trick — Paper. Wltbdrawlag from Under an In-
verted Bottle
Trick — Photograph of a Clown Face 1:
Trtck. Rising Card 21
Trick, Sack 21
Trick— Scissors, Removing from Card 1'
Trick, Skldoo-Skldec 1
Trick. Stage — Levltatlon 41
Trick— Table, Lifting !
Trick— Thread, Cuttrug Inside a Glass Bottle.. 1'
Trick, Vanishing Handkerchlel 3
Trick— Violin, Making Spirits Play 2!
Trick. Watch 3
Trick. Water and Wine 2
Trick with a Coin In a Wine Glass 1>
Tripod Holder, Homemade 2.
Trolley Coaster. Homemade Overbead 8
Trousers. Hanger for 143. 3'
Trunk Lock. Combioatlon. How to Attacb l:
Turbine Engine. How to Make 3>
Turbine. Steam
Turning Rings and Swing, Combined Z
Turpentine In Cutting Oil S<
Typewriter Hlbbons, Renewing 4.
Vacuum Cleaner. New Use for
Vacuum. Experiment with 4.
Valve, Flush. Repairing a Washer on 3
Varnlsb for Electric 'Terminals S
Vegetables, Preventing Burning In a Pot
Vegetable SUcer 4
Vehicle — Automobile, Boy's Homemade 4
. Vehicle— Hand Car Made ot Pipe and Fittings. . 4
Vehicle. Propelling, How to Make 4
Yeblclc — Wind Propeller, How to Hake 4
Violin. Uaklng Spirits Play 2
Vise. Carpenter's Homemade
Vise. Hand. How to Hake 20i<, 211. 226, 2S0, 8
Volcano. Miniature. How to Make 4
Voltammeter. Pocket 3
Voltmeter, Battery 1
VnicaniilDg Press for Bnbber Stamp* 3
Walking Stick, Electric 4
Wall, Cleaning 8
Wall, Waterprooting 3
Wallpaper. Holdy, Cleaning S
War Dance. Miniature 2
Washboard Holder
Washer on a Flush Valve, Repairing 3
Washers for Emery Wheel Arbors 3
Washing Machine, Driving wltb Hotorcyclft
Power 2
Watch. Demagnetlilng 1
Watch Dial. Illnmlnatlng at Night 1
Watcb Dials, Haklng Photographs on 3
Watcb Fob. How to Make 12, 2
Watcb Fob, aboestring. How to Weave 2
Watch Trick, Mystifying 8
Water, Aerating Id Small Tank 2
Water and Wine Trick 2
Water Bicycle, How to Hake S
Water Colors. To I^event from Crawling. .... I
Water, Drowning a Dog's Bark with 4
Water, Frecilng in Pipes 4
Water Motor. Homemade 66, 3
Water Power. Spit Turned by 1
Waterproofing a Wall 2
Water Rheostat 43,
Water Supply, Cost of...^.. 4
Water Tefeacope, How to Make 4
Waler Wheel Does Family Waahlng l
Water Wheel. How to Make 3
Water Wings, How to Hake 2
Wax Impressions from Seals.................. 4
Wax Molds. Copies Msde by BlectrodeposlUoa . . .. 1
Weather Vane, Monoplane S
l:V v^<v.^v_'Vl^_
WaatherproofliiK tor T
WalKbti far Atbletei
WalKbti far Atbletei, Bow to Make
Wheel. BeTolTlns wltb Boat SaUa
Wbetia, FroDt of an Aatomoblle, OrMilDg. . .
Wheels, Sprocket, To Uake
WUsk Broom Holder. Sheet MeUt
WiDd Propeller. How to Hake
Wind Vane, Electric Indicator for
Windmill for Practical PDrpoaM, How to Hi
Windmill, UlnUture, How to Make
WlndmUl, Hualcal
WlndmUl, SUtlonarj, How to Make
W Ddow Attraction — Tlxb and BIrda Illailon..
W ndow Boiea, RoaClc
Window Conaerratory
W ndow Dlajtlar
W ndow Loclt
W ndow Bbade, Faatentng to a Boiler
W ndow Bbade, Sepalr for
W Bdow Bbeir for Flower Pota
- - r Btick .
ra, RemO'
WInsB. Water, How . .
W nter Sporta, Derlcea of S
W re, AlaulDDU, Inaolatloe 8i
W re ConnecdODi, FIcilMe, FormlnE Colli to
Hake 4
WIra Loop OonneettoDa tor Batterj Binding Poota 4
Wire, Faraffln, How to li
fTbe PnMle 8
. 8SS Wire, Removlas InralMion from SIS
. 274 wire Tennlnala for Batterr Conncctlolu 166
. 1G2 Wlreleaa Coberer. Eaallj Made 77
. SSO Wireless Measagc*. Quaru Electrodes Used Is
IB Recelvlns 170
, 221 Wlrelexi Srstema, Simple G4
. 41S Wlreleas Telesrapb, Hotr to Uakr 84. 121
, 348 Wlreleas Telesiaph Mesngea. To Receive wltb «
1 SOS Telepbone 92
. 333 Wireless Telegrapb, Short Distance 102
, 74 Wlreleas Telepbone. How to Make 4,12
, 44S Wlrea, DrawlDs Into fixtures 13
. SSe Wlrea. Flexible Electric. Adjnster for 386
80 WondeHTspb, Row to Make 436
, 108 Wood Pieces. OcUgonal Wood, Block (or 293
22 Wood, StaminK 221
, 897 Woodwork, Cleaning SIG
. 413 Work Baaket, Homemade 22
. 229 Work Basket. Magnet '
, 292 Workbench for the .
, 450 Workbeneb, Homemade .
. 319 Wreatllng Mat oaii
. 864 Writing wltb Blectricit; 74
■ 222 X-Ray Brperlment 190
X'Ray Inatniment, Houenad* 1G1
Tacbt, Ice. Bow to Bnild SOT
Unci, Old Battery, V» Vm ST
dbjGooglc
dbjGooglc
dbjGoogle
dbjGooglc
dbjGooglc
dbjGooglc
dbjGooglc
dbjGooglc
YD 21842
UtBEHKElHUIIMWES
CQ3SbSD52S
I
Digitized by VjOOQIC
dbjGooglc
Live Music
Archive
Librivox
Free Audio
Metropolitan Museum
Cleveland
Museum of Art
Internet
Arcade
Console Living Room
Open Library
American
Libraries
TV News
Understanding
9/11